Commit Graph

10318 Commits

Author SHA1 Message Date
Robert Watson
c21f7757d2 Remove unnecessary and undesirable 'static' from function-local keg
list, which could cause problems for multi-threaded applications
using libmemstat to monitor UMA in more than one thread
simultaneously.

MFC after:	3 days
2006-01-16 00:37:20 +00:00
Marcel Moolenaar
707ca316b6 Define NO_TLS on ia64. The dynamic TLS implementation on ia64 is
broken for non-threaded shared processes in that __tls_get_addr()
assumes the thread pointer is always initialized. This is not the
case. When arenas_map is referenced in choose_arena() and it is
defined as a thread-local variable, it will result in a SIGSEGV.

PR: ia64/91846 (describes the TLS/ia64 bug).
2006-01-16 00:32:46 +00:00
Robert Watson
8e3ae6fe69 Fix typo in comment.
MFC after:	3 days
2006-01-16 00:28:11 +00:00
Christian S.J. Peron
65efc5ee23 Validate that the supplied file is not empty before trying mmap(2) it
and access the pages associated with it.

Submitted by:	Wojciech A. Koszek
PR:		bin/91411
MFC after:	1 week
2006-01-15 20:30:13 +00:00
David Xu
add2da0db1 Enable mutex inheritance code in mutex_fork, I forgot to turn on it.
while here, add some comments about process shared mutex.
2006-01-14 11:33:43 +00:00
Jason Evans
24b6d11c34 Replace malloc(), calloc(), posix_memalign(), realloc(), and free() with
a scalable concurrent allocator implementation.

Reviewed by:	current@
Approved by:	phk, markm (mentor)
2006-01-13 18:38:56 +00:00
Jason Evans
90dc795234 Increase the number of spinlocks, since libc's malloc implementation is
about to significantly increase the number of spinlocks used.

Approved by:	markm (mentor)
2006-01-13 06:14:04 +00:00
Gleb Smirnoff
2df050ad10 In the splnet(9) times netgraph(4) was synchronous and if a message
had been replied, the reply was always delivered to the originator
synchronously.

With introduction of netgraph item callbacks and a wait channel with
mutex in ng_socket(4), we have fixed the problem with ngctl(8) returning
earlier than the command has been proceeded by target node. But still
ngctl(8) can return prior to the reply has arrived to its node.

To fix this:
 - Introduce a new flag for netgraph(4) messages - NGM_HASREPLY.
   This flag is or'ed with message like NGM_READONLY.
 - In netgraph userland library if we have sent a message with
   NGM_HASREPLY flag, then select(2) until reply comes.
 - Mark appropriate generic commands with NGM_HASREPLY flag,
   gathering them into one enum {}. Bump generic cookie.
2006-01-12 19:14:40 +00:00
Jason Evans
352219015d Fix a bitwise logic error in posix_memalign().
Reported by:	glebius
2006-01-12 18:09:25 +00:00
Jason Evans
43326ef72b Use posix_memalign() in valloc() rather than making assumptions about
the alignment of malloc()ed memory.

Approved by:	markm (mentor)
2006-01-12 09:29:38 +00:00
Jason Evans
52828c0e9c In preparation for a new malloc implementation:
* Add posix_memalign().

  * Move calloc() from calloc.c to malloc.c.  Add a calloc() implementation in
    rtld-elf in order to make the loader happy (even though calloc() isn't
    used in rtld-elf).

  * Add _malloc_prefork() and _malloc_postfork(), and use them instead of
    directly manipulating __malloc_lock.

Approved by:	phk, markm (mentor)
2006-01-12 07:28:21 +00:00
Ruslan Ermilov
0b61bced98 Build shared library on behalf of bsnmpd. 2006-01-12 07:26:57 +00:00
Ceri Davies
a3df483296 I wrote getnetconfig where I meant getnetpath in the previous revision. 2006-01-11 13:57:15 +00:00
David Xu
07a263153e The thr_new sysscall was already in libc, don't generate it. 2006-01-11 06:10:05 +00:00
Greg Lehey
3b4c974228 Add references to fhopen, fhstat, getfh, lgetfh and fhstatfs.
Pointed out by: Antony Curtis <antony@mysql.com>
2006-01-10 23:24:47 +00:00
David Xu
9572a73405 Use macro STATIC_LIB_REQUIRE to declare a symbol should be linked into
static binary.
2006-01-10 04:53:03 +00:00
David Xu
e35e2ebd24 Rescue pthread_set_name_np for compatible reason, remove unused code. 2006-01-09 08:07:22 +00:00
David Xu
a53747d8fe Tweak macro THR_LOCK_RELEASE a bit for non-PTHREAD_INVARIANTS case. 2006-01-09 07:32:22 +00:00
David Xu
4160cda0dc Return real detached state. 2006-01-09 03:59:51 +00:00
David Xu
1775714935 Fix a bug recently introduced, the _thread_active_count should be
decreased if thread can not be created.
2006-01-08 10:13:18 +00:00
David Xu
23db0a33f7 Allow background threads to be suspended. 2006-01-08 01:49:31 +00:00
David Xu
0d29c148eb Try to reduce total time needed for suspending all threads,
first broadcast signals to all threads, then enter a wait loop.
2006-01-08 01:48:51 +00:00
David Xu
d827aa478d Remove functions i386_get_gsbase and i386_set_gsbase, they were already
in libc.
2006-01-07 06:01:43 +00:00
Ceri Davies
1e1e1fce56 o Document the possibility of putting 'b' in the flag field.
While we don't use the NC_BROADCAST value of nc_flag anywhere in the
  RPC code, it is parseable by getnetconfigent(3) from /etc/netconfig.

o Clean up some "see below"'s that were cut and pasted from netconfig.h.
2006-01-06 19:39:16 +00:00
David Xu
bc414752d3 Refine thread suspension code, now thread suspension is a blockable
operation, the caller is blocked util target threads are really
suspended, also avoid suspending a thread when it is holding a
critical lock.
Fix a bug in _thr_ref_delete which tests a never set flag.
2006-01-05 13:51:22 +00:00
Bruce Evans
fd2891004d Oops, on amd64 (and probably on all non-i386 systems), the previous
commit broke the 2**24 cases where |x| > DBL_MAX/2.  There are exponent
range problems not just for denormals (underflow) but for large values
(overflow).  Doubles have more than enough exponent range to avoid the
problems, but I forgot to convert enough terms to double, so there was
an x+x term which was sometimes evaluated in float precision.

Unfortunately, this is a pessimization with some combinations of systems
and compilers (it makes no difference on Athlon XP's, but on Athlon64's
it gives a 5% pessimization with gcc-3.4 but not with gcc-3.3).

Exlain the problem better in comments.
2006-01-05 09:18:48 +00:00
Diomidis Spinellis
79a7950c48 Document the recently-added EINVAL behavior.
MFC after:	1 week
2006-01-05 08:55:56 +00:00
Bruce Evans
4bb9780353 Use double precision internally to optimize cbrtf(), and change the
algorithm for the second step significantly to also get a perfectly
rounded result in round-to-nearest mode.  The resulting optimization
is about 25% on Athlon64's and 30% on Athlon XP's (about 25 cycles
out of 100 on the former).

Using extra precision, we don't need to do anything special to avoid
large rounding errors in the third step (Newton's method), so we can
regroup terms to avoid a division, increase clarity, and increase
opportunities for parallelism.  Rearrangement for parallelism loses
the increase in clarity.  We end up with the same number of operations
but with a division reduced to a multiplication.

Using specifically double precision, there is enough extra precision
for the third step to give enough precision for perfect rounding to
float precision provided the previous steps are accurate to 16 bits.
(They were accurate to 12 bits, which was almost minimal for imperfect
rounding in the old version but would be more than enough for imperfect
rounding in this version (9 bits would be enough now).)  I couldn't
find any significant time optimizations from optimizing the previous
steps, so I decided to optimize for accuracy instead.  The second step
needed a division although a previous commit optimized it to use a
polynomial approximation for its main detail, and this division dominated
the time for the second step.  Use the same Newton's method for the
second step as for the third step since this is insignificantly slower
than the division plus the polynomial (now that Newton's method only
needs 1 division), significantly more accurate, and simpler.  Single
precision would be precise enough for the second step, but doesn't
have enough exponent range to handle denormals without the special
grouping of terms (as in previous versions) that requires another
division, so we use double precision for both the second and third
steps.
2006-01-05 07:57:31 +00:00
David Xu
5131df80a5 1. Add SIGEV_THREAD notification for mq_notify.
2. Reuse current timer code and abstract some common code to
   to support both timer and mqueue.
2006-01-04 11:48:02 +00:00
Brian Somers
6632abc8dc For the ``#ifdef NOTYET'' code that allows calling non-async-safe
functions in the child after a fork() from a threaded process,
use __sys_setprocmask() rather than setprocmask() to keep our
signal handling sane.  Without this fix, signals are essentially
ignored in said child and things such as protection violations
result in an endless busy loop.

Reviewed by:	deischen
2006-01-03 15:34:27 +00:00
David Xu
97986a2ea0 Remove in-progress wait code to sync with libpthread's behavior. 2006-01-03 13:30:23 +00:00
Doug Rabson
0606b9944a Use the correct shared-library version number (the same as the one used
by the standalone version of heimdal GSS-API). If any compat issues
arise, I may increment the version number once more.
2006-01-01 11:01:01 +00:00
Christian S.J. Peron
111a16a8ee Document the LOGIN_SETMAC setusercontext(3) flag. While we are here, drop
in an external reference to mac_set_proc(3).
2005-12-30 06:16:20 +00:00
Doug Rabson
c0b9f4fe65 Add a new extensible GSS-API layer which can support GSS-API plugins,
similar the the Solaris implementation. Repackage the krb5 GSS mechanism
as a plugin library for the new implementation. This also includes a
comprehensive set of manpages for the GSS-API functions with text mostly
taken from the RFC.

Reviewed by: Love Hörnquist Åstrand <lha@it.su.se>, ru (build system), des (openssh parts)
2005-12-29 14:40:22 +00:00
Doug Barton
a52821c94c Updated versions of header files generated per the instructions
in src/contrib/bind9/FREEBSD-Upgrade for the 9.2.3 import
2005-12-29 04:29:03 +00:00
Peter Grehan
ec9cc1fc12 gmon now supported on powerpc 2005-12-29 04:10:52 +00:00
Peter Grehan
7d65909eed The minbrk symbol is hidden the same on powerpc as other FreeBSD platforms. 2005-12-29 04:09:38 +00:00
Tom Rhodes
257551c6a0 Add a64l(), l64a(), and l64a_r() XSI extentions. These functions convert
between a 32-bit integer and a radix-64 ASCII string.  The l64a_r() function
is a NetBSD addition.

PR:		51209 (based on submission, but very different)
Reviewed by:	bde, ru
2005-12-24 22:37:59 +00:00
Poul-Henning Kamp
4c13606d1e Add abort2 manual page.
Submitted by:	"Wojciech A. Koszek" <dunstan@freebsd.czest.pl>
Edited by:	phk
2005-12-23 12:27:42 +00:00
Olivier Houchard
80c276c1f5 Explicitely use a "signed char" instead of a "char", for those archs where
char defaults to unsigned.
2005-12-22 14:23:54 +00:00
David Xu
e6262545cf Let _mutex_cv_lock call internal functiona mutex_lock_common. 2005-12-21 05:14:07 +00:00
David Xu
8429e73473 Hide umtx API symbols as well. 2005-12-21 03:53:29 +00:00
David Xu
cf905a1575 1. Retire macro SCLASS, instead simply use language keyword and
put variables in thr_init.c.
2. Hide all global symbols which won't be exported.
2005-12-21 03:14:06 +00:00
David Xu
7a65760923 Follow the mistake in libpthread, the first version name in libpthread
is LIBTHREAD_1_0, but really it should be LIBPTHREAD_1_0.
Fix it so libmap.conf works again (it was broken by recent versioning
code in rtld_elf).
2005-12-21 02:34:20 +00:00
Bruce Evans
5776f433ab Extract the high and low words together. With gcc-3.4 on uniformly
distributed non-large args, this saves about 14 of 134 cycles for
Athlon64s and about 5 of 199 cycles for AthlonXPs.

Moved the check for x == 0 inside the check for subnormals.  With
gcc-3.4 on uniformly distributed non-large args, this saves another
5 cycles on Athlon64s and loses 1 cycle on AthlonXPs.

Use INSERT_WORDS() and not SET_HIGH_WORD() when converting the first
approximation from bits to double.  With gcc-3.4 on uniformly distributed
non-large args, this saves another 4 cycles on both Athlon64s and and
AthlonXPs.

Accessing doubles as 2 words may be an optimization on old CPUs, but on
current CPUs it tends to cause extra operations and pipeline stalls,
especially for writes, even when only 1 of the words needs to be accessed.

Removed an unused variable.
2005-12-20 01:21:30 +00:00
David Xu
597dc824a0 Clear return code to zero if joiner successfully waited joinee.
Bug reported by: jasone at connonware when using ports lang/onyx
MFC after: 3 days
2005-12-19 03:20:55 +00:00
Bruce Evans
c5964538b7 Use a minimax polynomial approximation instead of a Pade rational
function approximation for the second step.  The polynomial has degree
2 for cbrtf() and 4 for cbrt().  These degrees are minimal for the final
accuracy to be essentially the same as before (slightly smaller).
Adjust the rounding between steps 2 and 3 to match.  Unfortunately,
for cbrt(), this breaks the claimed accuracy slightly although incorrect
rounding doesn't.  Claim less accuracy since its not worth pessimizing
the polynomial or relying on exhaustive testing to get insignificantly
more accuracy.

This saves about 30 cycles on Athlons (mainly by avoiding 2 divisions)
so it gives an overall optimization in the 10-25% range (a larger
percentage for float precision, especially in 32-bit mode, since other
overheads are more dominant for double precision, surprisingly more
in 32-bit mode).
2005-12-19 00:22:03 +00:00
Bruce Evans
ce804bff58 Fixed code to match comments and the algorithm:
- in preparing for the third approximation, actually make t larger in
  magnitude than cbrt(x).  After chopping, t must be incremented by 2
  ulps to make it larger, not 1 ulp since chopping can reduce it by
  almost 1 ulp and it might already be up to half a different-sized-ulp
  smaller than cbrt(x).  I have not found any cases where this is
  essential, but the think-time error bound depends on it.  The relative
  smallness of the different-sized-ulp limited the bug.  If there are
  cases where this is essential, then the final error bound would be
  5/6+epsilon instead of of 4/6+epsilon ulps (still < 1).
- in preparing for the third approximation, round more carefully (but
  still sloppily to avoid branches) so that the claimed error bound of
  0.667 ulps is satisfied in all cases tested for cbrt() and remains
  satisfied in all cases for cbrtf().  There isn't enough spare precision
  for very sloppy rounding to work:
  - in cbrt(), even with the inadequate increment, the actual error was
    0.6685 in some cases, and correcting the increment increased this
    a little.  The fix uses sloppy rounding to 25 bits instead of very
    sloppy rounding to 21 bits, and starts using uint64_t instead of 2
    words for bit manipulation so that rounding more bits is not much
    costly.
  - in cbrtf(), the 0.667 bound was already satisfied even with the
    inadequate increment, but change the code to almost match cbrt()
    anyway.  There is not enough spare precision in the Newton
    approximation to double the inadequate increment without exceeding
    the 0.667 bound, and no spare precision to avoid this problem as
    in cbrt().  The fix is to round using an increment of 2 smaller-ulps
    before chopping so that an increment of 1 ulp is enough.  In cbrt(),
    we essentially do the same, but move the chop point so that the
    increment of 1 is not needed.

Fixed comments to match code:
- in cbrt(), the second approximation is good to 25 bits, not quite 26 bits.
- in cbrt(), don't claim that the second approximation may be implemented
  in single precision.  Single precision cannot handle the full exponent
  range without minor but pessimal changes to renormalize, and although
  single precision is enough, 25 bit precision is now claimed and used.

Added comments about some of the magic for the error bound 4/6+epsilon.
I still don't understand why it is 4/6+ and not 6/6+ ulps.

Indent comments at the right of code more consistently.
2005-12-18 21:46:47 +00:00
Alexander Kabaev
0eb88f2029 Implement ELF symbol versioning using GNU semantics. This code aims
to be compatible with symbol versioning support as implemented by
GNU libc and documented by http://people.redhat.com/~drepper/symbol-versioning
and LSB 3.0.

Implement dlvsym() function to allow lookups for a specific version of
a given symbol.
2005-12-18 19:43:33 +00:00
Marcel Moolenaar
757686b115 Make our ELF64 type definitions match standards. In particular this
means:
o  Remove Elf64_Quarter,
o  Redefine Elf64_Half to be 16-bit,
o  Redefine Elf64_Word to be 32-bit,
o  Add Elf64_Xword and Elf64_Sxword for 64-bit entities,
o  Use Elf_Size in MI code to abstract the difference between
   Elf32_Word and Elf64_Word.
o  Add Elf_Ssize as the signed counterpart of Elf_Size.

MFC after: 2 weeks
2005-12-18 04:52:37 +00:00
David Xu
df2cf82178 Update copyright. 2005-12-17 09:42:45 +00:00
Poul-Henning Kamp
75067f4f70 Add an extensible version of our *printf(3) implementation to libc
on probationary terms:  it may go away again if it transpires it is
a bad idea.

This extensible printf version will only be used if either
    environment variable USE_XPRINTF is defined
or
    one of the extension functions are called.
or
    the global variable __use_xprintf is set greater than zero.

In all other cases our traditional printf implementation will
be used.

The extensible version is slower than the default printf, mostly
because less opportunity for combining I/O operation exists when
faced with extensions.  The default printf on the other hand
is a bad case of spaghetti code.

The extension API has a GLIBC compatible part and a FreeBSD version
of same.  The FreeBSD version exists because the GLIBC version may
run afoul of our FILE * locking in multithreaded programs and it
even further eliminate the opportunities for combining I/O operations.

Include three demo extensions which can be enabled if desired: time
(%T), hexdump (%H) and strvis (%V).

%T can format time_t (%T), struct timeval (%lT) and struct timespec (%llT)
   in one of two human readable duration formats:
	"%.3llT" -> "20349.245"
	"%#.3llT" -> "5h39m9.245"

%H will hexdump a sequence of bytes and takes a pointer and a length
   argument.  The width specifies number of bytes per line.
	"%4H" -> "65 72 20 65"
	"%+4H" -> "0000 65 72 20 65"
	"%#4H" -> "65 72 20 65  |er e|"
	"%+#4H" -> "0000 65 72 20 65  |er e|"

%V will dump a string in strvis format.
	"%V" -> "Hello\tWor\377ld"	(C-style)
	"%0V" -> "Hello\011Wor\377ld"	(octal)
	"%+V" -> "Hello%09Wor%FFld"	(http-style)

Tests, comments, bugreports etc are most welcome.
2005-12-16 18:56:39 +00:00
David Xu
3b52e4d1b7 With current pthread implementations, a mutex initialization will
allocate a memory block. sscanf calls __svfscanf which in turn calls
fread, fread triggers mutex initialization but the mutex is not
destroyed in sscanf, this leads to memory leak. To avoid the memory
leak and performance issue, we create a none MT-safe version of fread:
__fread, and instead let __svfscanf call __fread.

PR: threads/90392
Patch submitted by: dhartmei
MFC after: 7 days
2005-12-16 02:50:53 +00:00
Bruce Evans
7aac169e18 Added comments about the apparently-magic rational function used in
the second step of approximating cbrt(x).  It turns out to be neither
very magic not nor very good.  It is just the (2,2) Pade approximation
to 1/cbrt(r) at r = 1, arranged in a strange way to use fewer operations
at a cost of replacing 4 multiplications by 1 division, which is an
especially bad tradeoff on machines where some of the multiplications
can be done in parallel.  A Remez rational approximation would give
at least 2 more bits of accuracy, but the (2,2) Pade approximation
already gives 6 more bits than needed.  (Changed the comment which
essentially says that it gives 3 more bits.)

Lower order Pade approximations are not quite accurate enough for
double precision but are plenty for float precision.  A lower order
Remez rational approximation might be enough for double precision too.
However, rational approximations inherently require an extra division,
and polynomial approximations work well for 1/cbrt(r) at r = 1, so I
plan to switch to using the latter.  There are some technical
complications that tend to cost a division in another way.
2005-12-15 16:23:22 +00:00
Bruce Evans
ec761d7501 Optimize by not doing excessive conversions for handling the sign bit.
This gives an optimization of between 9 and 22% on Athlons (largest
for cbrt() on amd64 -- from 205 to 159 cycles).

We extracted the sign bit and worked with |x|, and restored the sign
bit as the last step.  We avoided branches to a fault by using accesses
to FP values as bits to clear and restore the sign bit.  Avoiding
branches is usually good, but the bit access macros are not so good
(especially for setting FP values), and here they always caused pipeline
stalls on Athlons.  Even using branches would be faster except on args
that give perfect branch misprediction, since only mispredicted branches
cause stalls, but it possible to avoid touching the sign bit in FP
values at all (except to preserve it in conversions from bits to FP
not related to the sign bit).  Do this.  The results are identical
except in 2 of the 3 unsupported rounding modes, since all the
approximations use odd rational functions so they work right on strictly
negative values, and the special case of -0 doesn't use an approximation.
2005-12-13 20:17:23 +00:00
Bruce Evans
7d5a4821ba Fixed some especially horrible style bugs (indentation that is neither
KNF nor fdlibmNF combined with multiple statements per line).
2005-12-13 18:22:00 +00:00
Ruslan Ermilov
a5b0d9050a [mdoc] add missing space before a punctuation type argument. 2005-12-13 17:07:52 +00:00
David Xu
412295fdbd Sort .Xr by section number.
Submitted by: ru
2005-12-13 13:43:35 +00:00
Poul-Henning Kamp
b384108ed6 /* You're not supposed to hit this problem */
For some denormalized long double values, a bug in __hldtoa() (called
from *printf()'s %A format) results in a base 16 digit being rounded
up from 0xf to 0x10.

When this digit is subsequently converted to string format, an index
of 10 reaches past the end of the uppper-case hex/char array, picking
up whatever the code segment happen to contain at that address.

This mostly seem to be some character from the upper half of the
byte range.

When using the %a format instead of %A, the first character past
the end of the lowercase hex/char table happens to be index 0 in
the uppercase hex/char table hextable and therefore the string
representation features a '0', which is supposedly correct.

This leads me to belive that the proper fix _may_ be as simple as
masking all but the lower four bits off after incrementing a hex-digit
in libc/gdtoa/_hdtoa.c:roundup().  I worry however that the upper
bit in 0x10 indicates a carry not carried.

Until das@ or bde@ finds time to visit this issue, extend the
hexdigit arrays with a 17th index containing '?' so that we get a
invalid but consistent and printable output in both %a and %A formats
whenever this bug strikes.

This unmasks the bug in the %a format therefore solving the real
issue may both become easier and more urgent.

Possibly related to:	PR 85080
With help by:		bde@
2005-12-13 13:23:27 +00:00
David Xu
e9e7495667 Add cross references to siginfo.3. 2005-12-13 03:05:58 +00:00
David Xu
e6a9baa280 Remove unused _get_curthread() call. 2005-12-12 07:14:57 +00:00
Bruce Evans
af7f99131d Added comments about the magic behind
<cbrt(x) in bits> ~= <x in bits>/3 + BIAS.
Keep the large comments only in the double version as usual.

Fixed some style bugs (mainly grammar and spelling errors in comments).
2005-12-11 19:51:30 +00:00
Bruce Evans
288a8c86cb Fixed the unexpectedly large maximum error after the previous commit.
It was because I forgot to translate the part of the double precision
algorithm that chops t so that t*t is exact.  Now the maximum error
is the same as for double precision (almost exactly 2.0/3 ulps).
2005-12-11 17:58:14 +00:00
Bruce Evans
6de073b4ef Fixed all 502518670 errors of more than 1 ulp for cbrtf() on amd64.
The maximum error was 3.56 ulps.

The bug was another translation error.  The double precision version
has a comment saying "new cbrt to 23 bits, may be implemented in
precision".  This means exactly what it says -- that the 23 bit second
approximation for the double precision cbrt() may be implemented in
single (i.e., float) precision.  It doesn't mean what the translation
assumed -- that this approximation, when implemented in float precision,
is good enough for the the final approximation in float precision.
First, float precision needs a 24 bit approximation.  The "23 bit"
approximation is actually good to 24 bits on float precision args, but
only if it is evaluated in double precision.  Second, the algorithm
requires a cleanup step to ensure its error bound.

In float precision, any reasonable algorithm works for the cleanup
step.  Use the same algorithm as for double precision, although this
is much more than enough and is a significant pessimization, and don't
optimize or simplify anything using double precision to implement the
float case, so that the whole double precision algorithm can be verified
in float precision.  A maximum error of 0.667 ulps is claimed for cbrt()
and the max for cbrtf() using the same algorithm shouldn't be different,
but the actual max for cbrtf() on amd64 is now 0.9834 ulps.  (On i386
-O1 the max is 0.5006 (down from < 0.7) due to extra precision.)
2005-12-11 13:22:01 +00:00
Bruce Evans
1a787460ba Fixed some magic numbers.
The threshold for not being tiny was too small.  Use the usual 2**-12
threshold.  As for sinhf, use a different method (now the same as for
sinhf) to set the inexact flag for tiny nonzero x so that the larger
threshold works, although this method is imperfect.  As for sinhf,
this change is not just an optimization, since the general code that
we fell into has accuracy problems even for tiny x.  On amd64, avoiding
it fixes tanhf on 2*13495596 args with errors of between 1 and 1.3
ulps and thus reduces the total number of args with errors of >= 1 ulp
from 37533748 to 5271278; the maximum error is unchanged at 2.2 ulps.

The magic number 22 is log(DBL_MAX)/2 plus slop.  This is bogus for
float precision.  Use 9 (log(FLT_MAX)/2 plus less slop than for
double precision).  Unlike for coshf and tanhf, this is just an
optimization, and MAX isn't misspelled EPSILON in the commit log.

I started testing with nonstandard rounding modes, and verified that
the chosen thresholds work for all modes modulo problems not related
to thresholds.  The best thresholds are not very dependent on the mode,
at least for tanhf.
2005-12-11 11:40:55 +00:00
David E. O'Brien
9b39b7cba6 "Create" ldexpf for non-i386 architectures.
Submitted by:	Steve Kargl <sgk@troutmask.apl.washington.edu>
2005-12-06 20:12:38 +00:00
David Xu
f2a77c2a7c Fix markeup.
Submitted by: ru
2005-12-06 09:52:54 +00:00
David Xu
52cf88e2ef Fix markup.
Submitted by: ru
2005-12-05 09:31:49 +00:00
David Xu
8c1e5ef215 Document SIGEV_NONE and SIGEV_SIGNAL. 2005-12-05 04:44:39 +00:00
Bruce Evans
0f06be5a4d Fixed the approximation to pio4. pio4_hi must be pio2_hi/2 since it
shares its low half with pio2_hi.  pio2_hi is rounded down although
rounding to nearest would be a tiny bit better, so pio4_hi must be
rounded down too.  It was rounded to nearest, which happens to be
different in float precision but the same in double precision.

This fixes about 13.5 million errors of more than 1 ulp in asinf().
The largest error was 2.81 ulps on amd64 and 2.57 ulps on i386 -O1.
Now the largest error is 0.93 ulps on amd65 and 0.67 ulps on i386 -O1.
2005-12-04 13:52:46 +00:00
Bruce Evans
d48ea9753c For log1pf(), fixed the approximations to sqrt(2), sqrt(2)-1 and
sqrt(2)/2-1.  For log1p(), fixed the approximation to sqrt(2)/2-1.

The end result is to fix an error of 1.293 ulps in
    log1pf(0.41421395540 (hex 0x3ed413da))
and an error of 1.783 ulps in
    log1p(-0.292893409729003961761) (hex 0x12bec4 00000001)).
The former was the only error of > 1 ulp for log1pf() and the latter
is the only such error that I know of for log1p().

The approximations don't need to be very accurate, but the last 2 need
to be related to the first and be rounded up a little (even more than
1 ulp for sqrt(2)/2-1) for the following implementation-detail reason:
when the arg (x) is not between (the approximations to) sqrt(2)/2-1
and sqrt(2)-1, we commit to using a correction term, but we only
actually use it if 1+x is between sqrt(2)/2 and sqrt(2) according to
the first approximation. Thus we must ensure that
!(sqrt(2)/2-1 < x < sqrt(2)-1) implies !(sqrt(2)/2 < x+1 < sqrt(2)),
where all the sqrt(2)'s are really slightly different approximations
to sqrt(2) and some of the "<"'s are really "<="'s.  This was not done.

In log1pf(), the last 2 approximations were rounded up by about 6 ulps
more than needed relative to a good approximation to sqrt(2), but the
actual approximation to sqrt(2) was off by 3 ulps.  The approximation
to sqrt(2)-1 ended up being 4 ulps too small, so the algoritm was
broken in 4 cases.  The result happened to be broken in 1 case.  This
is fixed by using a natural approximation to sqrt(2) and derived
approximations for the others.

In logf(), all the approximations made sense, but the approximation
to sqrt(2)/2-1 was 2 ulps too small (a tiny amount, since we compare
with a granularity of 2**32 ulps), so the algorithm was broken in 2
cases.  The result was broken in 1 case.  This is fixed by rounding
up the approximation to sqrt(2)/2-1 by 2**32 ulps, so 2**32 cases are
now handled a little differently (still correctly according to my
assertion that the approximations don't need to be very accurate, but
this has not been checked).
2005-12-04 12:30:44 +00:00
Stefan Farfeleder
2c05ef0cff Merge NetBSD's revision 1.27. This bug can be observed eg. when browsing
through the history in sh.

| Refresh bug reported by Julien Torres:
|
| going from:
|     activate -verbose
| to:
|     reset -activation
| results in:
|     reset -activationverbose"
| instead of:
|     reset -activation
|
| This is because we choose to insert "reset -" before the current line,
| and the delete "e -" and insert "ion" in the appropriate place. The
| cleareol code did not handle this case properly; we now cleareol to
| the maximum number of characters of the first difference, the second
| difference and the difference in line length.
2005-12-04 09:34:56 +00:00
Bruce Evans
669152498a Use the usual volatile hack to trick gcc into clipping any extra precision
on assignment.

Extra precision on i386's broke hi+lo decomposition in the usual way.
It caused all except 1 of the 62343 errors of more than 1 ulp for
log1pf() on i386's with gcc -O [-fno-float-store].
2005-12-04 08:57:54 +00:00
Bruce Evans
00b1756b1e Fixed fdlibm[+cygnus] logbf() and logb() on denormals. Adjustment
according to the highest nonzero bit in a denormal was missing.

fdlibm ilogbf() and ilogb() have always had the adjustment, but only
use a small part of their method for handling denormals; use the
normalization method in log[f]() for the main part.
2005-12-03 11:57:19 +00:00
Ruslan Ermilov
4b66957aa4 Fix prototype. 2005-12-03 09:01:02 +00:00
Ruslan Ermilov
fc37aef9c0 Fix type of argument. 2005-12-03 09:00:43 +00:00
Bruce Evans
1186054263 Restored removal of the special handling needed for a result of +-0.
It was lost in rev.1.9.  The log message for rev.1.9 says that the
special case of +-0 is handled twice, but it was only handled once,
so it became unhandled, and this happened to break half of the cases
that return +-0:
- round-towards-minus-infinity:  0   <  x < 1:  result was -0 not  0
- round-to-nearest:             -0.5 <= x < 0:  result was  0 not -0
- round-towards-plus-infinity:  -1   <  x < 0:  result was  0 not -0
- round-towards-zero:           -1   <  x < 0:  result was  0 not -0
2005-12-03 09:00:29 +00:00
Ruslan Ermilov
61df86c1ed Break hard sentence break. 2005-12-03 08:52:07 +00:00
Bruce Evans
3fc5a433e9 Simplified the fix in rev.1.3. Instead of using long double for
TWO52[sx] to trick gcc into correctly converting TWO52[sx]+x to double
on assignment to "double w", force a correct assignment by assigning
to *(double *)&w.  This is cleaner and avoids the double rounding
problem on machines that evaluate double expressions in double
precision.  It is not necessary to convert w-TWO52[sx] to double
precision on return as implied in the comment in rev.1.3, since
the difference is exact.
2005-12-03 07:38:35 +00:00
Bruce Evans
7441377544 Fixed rint(x) in the following cases:
(1) In round-to-nearest mode, on all machines, fdlibm rint() never
    worked for |x| = n+0.75 where n is an even integer between 262144
    and 524286 inclusive (2*131072 cases).  To avoid double rounding
    on some machines, we begin by adjusting x to a value with the 0.25
    bit not set, essentially by moving the 0.25 bit to a lower bit
    where it works well enough as a guard, but we botched the adjustment
    when log2(|x|) == 18 (2*2**52 cases) and ended up just clearing
    the 0.25 bit then.  Most subcases still worked accidentally since
    another lower bit serves as a guard.  The case of odd n worked
    accidentally because the rounding goes the right way then.  However,
    for even n, after mangling n+0.75 to 0.5, rounding gives n but the
    correct result is n+1.
(2) In round-towards-minus-infinity mode, on all machines, fdlibm rint()
    never for x = n+0.25 where n is any integer between -524287 and
    -262144 inclusive (262144 cases).  In these cases, after mangling
    n+0.25 to n, rounding gives n but the correct result is n-1.
(3) In round-towards-plus-infinity mode, on all machines, fdlibm rint()
    never for x = n+0.25 where n is any integer between 262144 and
    524287 inclusive (262144 cases).  In these cases, after mangling
    n+0.25 to n, rounding gives n but the correct result is n+1.

A variant of this bug was fixed for the float case in rev.1.9 of s_rintf.c,
but the analysis there is incomplete (it only mentions (1)) and the fix
is buggy.

Example of the problem with double rounding: rint(1.375) on a machine
which evaluates double expressions with just 1 bit of extra precision
and is in round-to-nearest mode.  We evaluate the result using
(double)(2**52 + 1.375) - 2**52.  Evaluating 2**52 + 1.375 in (53+1) bit
prcision gives 2**52 + 1.5 (first rounding).  (Second) rounding of this
to double gives 2**52 + 2.0.  Subtracting 2**52 from this gives 2.0 but
we want 1.0.  Evaluating 2**52 + 1.375 in double precision would have
given the desired intermediate result of 2**52 + 1.0.

The double rounding problem is relatively rare, so the botched adjustment
can be fixed for most machines by removing the entire adjustment.  This
would be a wrong fix (using it is 1 of the bugs in rev.1.9 of s_rintf.c)
since fdlibm is supposed to be generic, but it works in the following cases:
- on all machines that evaluate double expressions in double precision,
  provided either long double has the same precision as double (alpha,
  and i386's with precision forced to double) or my earlier fix to use
  a long double 2**52 is modified to avoid using long double precision.
- on all machines that evaluate double expressions in many more than 11
  bits of extra precision.  The 1 bit of extra precision in the example
  is the worst case.  With N bits of extra precision, it sufices to
  adjust the bit N bits below the 0.5 bit.  For N >= about 52 there is
  no such bit so the adjustment is both impossible and unnecessary.  The
  fix in rev.1.9 of s_rintf.c apparently depends on corresponding magic
  in float precision: on all supported machines N is either 0 or >= 24,
  so double rounding doesn't occur in practice.
- on all machines that don't use fdlibm rint*() (i386's).
So under FreeBSD, the double rounding problem only affects amd64 now, but
should only affect i386 in future (when double expressions are evaluated
in long double precision).
2005-12-03 07:23:30 +00:00
Doug Ambrisko
c26efd485e Switch BUILD_ARCH in Makefile to use uname -p suggested by ru.
Switch strncpy to strlcpy suggested by gad and issue found by pjd.
Add to uname(3) man page describing:
	UNAME_s
	UNAME_r
	UNAME_v
	UNAME_m
Add to getosreldate(3) man page describing:
	OSVERSION

Submitted by:	ru, pjd/gad
Reviewed by:	ru (man pages)
2005-12-03 05:11:07 +00:00
David Xu
8fcc657635 Remove implementation-defined, it has already been described in NOTES
section.
2005-12-03 02:49:04 +00:00
David Xu
ce45c6d3d7 Remove implementation-defined sentences. 2005-12-03 02:31:18 +00:00
David Xu
951ac754b9 Fix lots of markup and content bug.
Submitted by: ru
2005-12-03 01:34:41 +00:00
David Xu
0e6a74358e syscall -> system call. 2005-12-02 13:50:56 +00:00
Bruce Evans
5792e54aa9 Fixed roundf(). The following cases never worked in FreeBSD:
- in round-towards-minus-infinity mode, on all machines, roundf(x) never
  worked for 0 < |x| < 0.5 (2*0x3effffff cases in all, or almost half of
  float space).  It was -0 for 0 < x < 0.5 and 0 for -0.5 < x < 0, but
  should be 0 and -0, respectively.  This is because t = ceilf(|x|) = 1
  for these args, and when we adjust t from 1 to 0 by subtracting 1, we
  get -0 in this rounding mode, but we want and expected to get 0.
- in round-towards-minus-infinity, round towards zero and round-to-nearest
  modes, on machines that evaluate float expressions in float precision
  (most machines except i386's), roundf(x) never worked for |x| =
  <float value immediately below 0.5> (2 cases in all).  It was +-1 but
  should have been +-0.  This is because t = ceilf(|x|) = 1 for these
  args, and when we try to classify |x| by subtracting it from 1 we
  get an unexpected rounding error -- the result is 0.5 after rounding
  to float in all 3 rounding modes, so we we have forgotten the
  difference between |x| and 0.5 and end up returning the same value
  as for +-0.5.

The fix is to use floorf() instead of ceilf() and to add 1 instead of
-1 in the adjustment.  With floorf() all the expressions used are
always evaluated exactly so there are no rounding problems, and with
adjustments of +1 we don't go near -0 when adjusting.

Attempted to fix round() and roundl() by cloning the fix for roundf().
This has only been tested for round(), only on args representable as
floats.  Double expressions are evaluated in double precision even on
i386's, so round(0.5-epsilon) was broken even on i386's.  roundl()
must be completely broken on i386's since long double precision is not
really supported.  There seem to be no other dependencies on the
precision.
2005-12-02 13:45:06 +00:00
David Xu
4ea655e4bb Fix markup. 2005-12-02 09:04:35 +00:00
Doug Ambrisko
00bb0c6bdf Unbreak build when I fluff the clean-up of __FBSDID diff reduction
before commit.

pointyhat++
2005-12-02 04:55:05 +00:00
Doug Ambrisko
d630a05f40 Add support to easily build FreeBSD unpacked in a chroot of another
FreeBSD machine.  To do this add the man 1 uname changes to __xuname.c
so we can override the settings it reports.  Add OSVERSION override
to getosreldate.  Finally which Makefile.inc1 to use uname -m instead
of  sysctl -n hw.machine_arch to get the arch. type.

With these change you can put a complete FreeBSD OS image into a
chroot set:
	UNAME_s=FreeBSD
	UNAME_r=4.7-RELEASE
	UNAME_v="FreeBSD $UNAME_r #1: Fri Jul 22 20:32:52 PDT 2005 fake@fake:/usr/obj/usr/src/sys/FAKE"
	UNAME_m=i386
	UNAME_p=i386
	OSVERSION=470000
on an amd64 or i386 and it just work including building ports and using
pkg_add -r etc.  The caveat for this example is that these patches
have to be applied to FreeBSD 4.7 and the uname(1) changes need to
be merged.  This also addresses issue with libtool.

This is usefull for when a build machine has been trashed for an
old release and we want to do a build on a new machine that FreeBSD
4.7 won't run on ...
2005-12-02 00:50:30 +00:00
Warner Losh
fdc504a929 Tweak markup for POSIX standards. Minor wordsmithing.
Submitted by: ru@
2005-12-01 18:17:50 +00:00
Warner Losh
edd94d735c Document O_NOCTTY and O_SYNC. O_NOCTTY is a nop on freebsd, while on
other systems it prevents a tty from becoming a controlling tty on the
open.  O_SYNC is the POSIX name for O_FSYNC.

The Markup Police may need to tweak my references to standards.
2005-12-01 17:54:33 +00:00
John Baldwin
38df04a76d Add MLINK for execvP(3).
PR:		docs/89783
Submitted by:	Andreas Kohn andreas at syndrom23 dot de
MFC after:	3 days
2005-12-01 15:56:05 +00:00
Bruce Evans
f4b01a9edf Rearranged the polynomial evaluation to reduce dependencies, as in
k_tanf.c but with different details.

The polynomial is odd with degree 13 for tanf() and odd with degree
9 for sinf(), so the details are not very different for sinf() -- the
term with the x**11 and x**13 coefficients goes awaym and (mysteriously)
it helps to do the evaluation of w = z*z early although moving it later
was a key optimization for tanf().  The details are different but simpler
for cosf() because the polynomial is even and of lower degree.

On Athlons, for uniformly distributed args in [-2pi, 2pi], this gives
an optimization of about 4 cycles (10%) in most cases (13% for sinf()
on AXP, but 0% for cosf() with gcc-3.3 -O1 on AXP).  The best case
(sinf() with gcc-3.4 -O1 -fcaller-saves on A64) now takes 33-39 cycles
(was 37-45 cycles).  Hardware sinf takes 74-129 cycles.  Despite
being fine tuned for Athlons, the optimization is even larger on
some other arches (about 15% on ia64 (pluto2) and 20% on alpha (beast)
with gcc -O2 -fomit-frame-pointer).
2005-11-30 11:51:17 +00:00
Bruce Evans
8d3b309bad Fixed cosf(x) when x is a "negative" NaNs. I broke this in rev.1.10.
cosf(x) is supposed to return something like x when x is a NaN, and
we actually fairly consistently return x-x which is normally very like
x (on i386 and and it is x if x is a quiet NaN and x with the quiet bit
set if x is a signaling NaN.  Rev.1.10 broke this by normalising x to
fabsf(x).  It's not clear if fabsf(x) is should preserve x if x is a NaN,
but it actually clears the sign bit, and other parts of the code depended
on this.

The bugs can be fixed by saving x before normalizing it, and using the
saved x only for NaNs, and using uint32_t instead of int32_t for ix
so that negative NaNs are not misclassified even if fabsf() doesn't
clear their sign bit, but gcc pessimizes the saving very well, especially
on Athlon XPs (it generates extra loads and stores, and mixes use of
the SSE and i387, and this somehow messes up pipelines).  Normalizing
x is not a very good optimization anyway, so stop doing it.  (It adds
latency to the FPU pipelines, but in previous versions it helped except
for |x| <= 3pi/4 by simplifying the integer pipelines.)  Use the same
organization as in s_sinf.c and s_tanf.c with some branches reordered.
These changes combined recover most of the performance of the unfixed
version on A64 but still lose 10% on AXP with gcc-3.4 -O1 but not with
gcc-3.3 -O1.
2005-11-30 06:47:18 +00:00
Bruce Evans
908801933a Fixed the hi+lo approximation to log(2). The normal 17+24 bit decomposition
that was used doesn't work normally here, since we want to be able to
multiply `hi' by the exponent of x _exactly_, and the exponent of x has
more than 7 significant bits for most denormal x's, so the multiplication
was not always exact despite a cloned comment claiming that it was.  (The
comment is correct in the double precision case -- with the normal 33+53
bit decomposition the exponent can have 20 significant bits and the extra
bit for denormals is only the 11th.)

Fixing this had little or no effect for denormals (I think because
more precision is inherently lost for denormals than is lost by roundoff
errors in the multiplication).

The fix is to reduce the precision of the decomposition to 16+24 bits.
Due to 2 bugs in the old deomposition and numerical accidents, reducing
the precision actually increased the precision of hi+lo.  The old hi+lo
had about 39 bits instead of at least 41 like it should have had.
There were off-by-1-bit errors in each of hi and lo, apparently due
to mistranslation from the double precision hi and lo.  The correct
16 bit hi happens to give about 19 bits of precision, so the correct
hi+lo gives about 43 bits instead of at least 40.  The end result is
that expf() is now perfectly rounded (to nearest) except in 52561 cases
instead of except in 67027 cases, and the maximum error is 0.5013 ulps
instead of 0.5023 ulps.
2005-11-30 04:56:49 +00:00
David Xu
6f59c4c0cd Update conformance and history sections. 2005-11-30 04:15:44 +00:00
David Xu
400786f6bb Symlink mq_send to mq_timedsend.
Symlink mq_receive to mq_timedreceive.
2005-11-30 04:14:53 +00:00
David Xu
968cc4bd61 Add manuals for POSIX message queue. 2005-11-30 04:12:37 +00:00
Tom McLaughlin
8d98402040 Fix misspelling in Poul-Henning Kamp's email address under AUTHORS, from
pkh@ to phk@.

Approved by:	ade
2005-11-30 04:08:45 +00:00
John Baldwin
a54bb702d7 Restore the previous state after a FILL operation in properties_read()
rather than forcing the state to LOOK.  If we are in the middle of parsing
a line when we have to do a FILL we would have lost any token we were in
the middle of parsing and would have treated the next character as being
at the start of a new line instead.

PR:		kern/89181
Submitted by:	Antony Mawer gnats at mawer dot org
MFC after:	1 week
2005-11-28 16:30:16 +00:00
Bruce Evans
1dd21062e5 Rearranged the polynomial evaluation some more to reduce dependencies.
Instead of echoing the code in a comment, try to describe why we split
up the evaluation in a special way.

The new optimization is mostly to move the evaluation of w = z*z later
so that everything else (except z = x*x) doesn't have to wait for w.
On Athlons, FP multiplication has a latency of 4 cycles so this
optimization saves 4 cycles per call provided no new dependencies are
introduced.  Tweaking the other terms in to reduce dependencies saves
a couple more cycles in some cases (more on AXP than on A64; up to 8
cycles out of 56 altogether in some cases).  The previous version had
a similar optimization for s = z*x.  Special optimizations like these
probably have a larger effect than the simple 2-way vectorization
permitted (but not activated by gcc) in the old version, since 2-way
vectorization is not enough and the polynomial's degree is so small
in the float case that non-vectorizable dependencies dominate.

On an AXP, tanf() on uniformly distributed args in [-2pi, 2pi] now
takes 34-55 cycles (was 39-59 cycles).
2005-11-28 11:46:20 +00:00
Bruce Evans
671448d87e Fixed about 50 million errors of infinity ulps and about 3 million errors
of between 1.0 and 1.8509 ulps for lgammaf(x) with x between -2**-21 and
-2**-70.

As usual, the cutoff for tiny args was not correctly translated to
float precision.  It was 2**-70 but 2**-21 works.  Not as usual, having
a too-small threshold was worse than a pessimization.  It was just a
pessimization for (positive) args between 2**-70 and 2**-21, but for
the first ~50 million (negative) args below -2**-70, the general code
overflowed and gave a result of infinity instead of correct (finite)
results near 70*log(2).  For the remaining ~361 million negative args
above -2**21, the general code gave almost-acceptable errors (lgamma[f]()
is not very accurate in general) but the pessimization was larger than
for misclassified tiny positive args.

Now the max error for lgammaf(x) with |x| < 2**-21 is 0.7885 ulps, and
speed and accuracy are almost the same for positive and negative args
in this range.  The maximum error overall is still infinity ulps.

A cutoff of 2**-70 is probably wastefully small for the double precision
case.  Smaller cutoffs can be used to reduce the max error to nearly
0.5 ulps for tiny args, but this is useless since the general algrorithm
for nearly-tiny args is not nearly that accurate -- it has a max error of
about 1 ulp.
2005-11-28 08:32:15 +00:00
Bruce Evans
0bea84b2d4 Exploit skew-symmetry to avoid an operation: -sin(x-A) = sin(A-x). This
gives a tiny but hopefully always free optimization in the 2 quadrants
to which it applies.  On Athlons, it reduces maximum latency by 4 cycles
in these quadrants but has usually has a smaller effect on total time
(typically ~2 cycles (~5%), but sometimes 8 cycles when the compiler
generates poor code).
2005-11-28 06:15:10 +00:00
Bruce Evans
35ae347641 Try to use the "proximity" (~) operator consistently in comments
(x ~<= a, not x <= ~a).  This got messed up in some places when the
comments were moved from e_rem_pio2f.c.

Added my (non-)copyright.
2005-11-28 05:46:13 +00:00
Bruce Evans
960d3da0f0 Changed spelling of the request-to-inline macro name to match the change
of the function name.

Added my (non-)copyright.

In k_tanf.c, added the first set of redundant parentheses to control
grouping which was claimed to be added in the previous commit.
2005-11-28 05:35:32 +00:00
Bruce Evans
59aad933ab Use only double precision for "kernel" cosf and sinf (except for
returning float).  The functions are renamed from __kernel_{cos,sin}f()
to __kernel_{cos,sin}df() so that misuses of them will cause link errors
and not crashes.

This version is an almost-routine translation with no special optimizations
for accuracy or efficiency.  The not-quite-routine part is that in
__kernel_cosf(), regenerating the minimax polynomial with double
precision coefficients gives a coefficient for the x**2 term that is
not quite -0.5, so the literal 0.5 in the code and the related `hz'
variable need to be modified; also, the special code for reducing the
error in 1.0-x**2*0.5 is no longer needed, so it is convenient to
adjust all the logic for the x**2 term a little.  Note that without
extra precision, it would be very bad to use a coefficient of other
than -0.5 for the x**2 term -- the old version depends on multiplication
by -0.5 being infinitely precise so as not to need even more special
code for reducing the error in 1-x**2*0.5.

This gives an unimportant increase in accuracy, from ~0.8 to ~0.501
ulps.  Almost all of the error is from the final rounding step, since
the choice of the minimax polynomials so that their contribution to the
error is a bit less than 0.5 ulps just happens to give contributions that
are significantly less (~.001 ulps).

An Athlons, for uniformly distributed args in [-2pi, 2pi], this gives
overall speed increases in the 10-20% range, despite giving a speed
decrease of typically 19% (from 31 cycles up to 37) for sinf() on args
in [-pi/4, pi/4].
2005-11-28 04:58:57 +00:00
Tim Kientzle
55be5837f8 Portability: Remove AC_CHECK_MALLOC from configure.ac.in.
libarchive doesn't make malloc(0) requests, so the autoconf
checks aren't needed and the autoconf workarounds for
broken malloc(0) just create problems.

Thanks to: Dan Nelson, who reports that this fixes libarchive on AIX 5.2
2005-11-27 03:16:46 +00:00
David Xu
8635f5a162 Implement following POSIX message queue interfaces:
mq_close, mq_getattr, mq_receive, mq_send.
2005-11-26 13:01:17 +00:00
Bruce Evans
833f0e1a4a Minor cleanups and optimizations:
- Remove dead code that I forgot to remove in the previous commit.

- Calculate the sum of the lower terms of the polynomial (divided by
  x**5) in a single expression (sum of odd terms) + (sum of even terms)
  with parentheses to control grouping.  This is clearer and happens to
  give better instruction scheduling for a tiny optimization (an
  average of about ~0.5 cycles/call on Athlons).

- Calculate the final sum in a single expression with parentheses to
  control grouping too.  Change the grouping from
  first_term + (second_term + sum_of_lower_terms) to
  (first_term + second_term) + sum_of_lower_terms.  Normally the first
  grouping must be used for accuracy, but extra precision makes any
  grouping give a correct result so we can group for efficiency.  This
  is a larger optimization (average 3-4 cycles/call or 5%).

- Use parentheses to indicate that the C order of left to right evaluation
  is what is wanted (for efficiency) in a multiplication too.

The old fdlibm code has several optimizations related to these.  2
involve doing an extra operation that can be done almost in parallel
on some superscalar machines but are pessimizations on sequential
machines.  Others involve statement ordering or expression grouping.
All of these except the ordering for the combining the sums of the odd
and even terms seem to be ideal for Athlons, but parallelism is still
limited so all of these optimizations combined together with the ones
in this commit save only ~6-8 cycles (~10%).

On an AXP, tanf() on uniformly distributed args in [-2pi, 2pi] now
takes 39-59 cycles.  I don't know of any more optimizations for tanf()
short of writing it all in asm with very MD instruction scheduling.
Hardware fsin takes 122-138 cycles.  Most of the optimizations for
tanf() don't work very well for tan[l]().  fdlibm tan() now takes
145-365 cycles.
2005-11-24 13:48:40 +00:00
Ruslan Ermilov
877205d1d4 Fix prototype. 2005-11-24 11:29:11 +00:00
Ruslan Ermilov
4226a8bf6f Fix prototypes. 2005-11-24 11:26:36 +00:00
Ruslan Ermilov
94f5f5df3d Fix prototypes. 2005-11-24 11:14:06 +00:00
Ruslan Ermilov
3a14548604 Fix prototypes. 2005-11-24 10:54:47 +00:00
Ruslan Ermilov
70b0774919 Fix prototype. 2005-11-24 10:43:35 +00:00
Ruslan Ermilov
41792fb59f Fix prototype. 2005-11-24 10:32:39 +00:00
Ruslan Ermilov
639d850061 Fix prototypes. 2005-11-24 10:30:44 +00:00
Ruslan Ermilov
de599f05ea Fix prototypes. 2005-11-24 10:06:05 +00:00
Joel Dahl
19797b2256 s/5.5/6.0/ in HISTORY section.
Discussed with:	ru
2005-11-24 09:25:10 +00:00
Ruslan Ermilov
47be132478 Make SYNOPSIS compile.
Attn peter@: this manpage wasn't synced with your code changes.
2005-11-24 07:48:19 +00:00
Ruslan Ermilov
93f0f0427b Fix prototypes.
Attn davidxu@: most likely, the description should also be tweaked
after your undocumented changes that changed these prototypes.
2005-11-24 07:33:35 +00:00
Ruslan Ermilov
7062693e56 Fix prototypes. 2005-11-24 07:12:01 +00:00
Ruslan Ermilov
6eee826901 Keep up with const poisoning in uuid.h,v 1.3. 2005-11-24 07:04:20 +00:00
Ruslan Ermilov
36c71f6ac1 Fix prototype. 2005-11-24 06:56:21 +00:00
Bruce Evans
16638b5585 Optimized by eliminating the special case for 0.67434 <= |x| < pi/4.
A single polynomial approximation for tan(x) works in infinite precision
up to |x| < pi/2, but in finite precision, to restrict the accumulated
roundoff error to < 1 ulp, |x| must be restricted to less than about
sqrt(0.5/((1.5+1.5)/3)) ~= 0.707.  We restricted it a bit more to
give a safety margin including some slop for optimizations.  Now that
we use double precision for the calculations, the accumulated roundoff
error is in double-precision ulps so it can easily be made almost 2**29
times smaller than a single-precision ulp.  Near x = pi/4 its maximum
is about 0.5+(1.5+1.5)*x**2/3 ~= 1.117 double-precision ulps.

The minimax polynomial needs to be different to work for the larger
interval.  I didn't increase its degree the old degree is just large
enough to keep the final error less than 1 ulp and increasing the
degree would be a pessimization.  The maximum error is now ~0.80
ulps instead of ~0.53 ulps.

The speedup from this optimization for uniformly distributed args in
[-2pi, 2pi] is 28-43% on athlons, depending on how badly gcc selected
and scheduled the instructions in the old version.  The old version
has some int-to-float conversions that are apparently difficult to schedule
well, but gcc-3.3 somehow did everything ~10 cycles or ~10% faster than
gcc-3.4, with the difference especially large on AXPs.  On A64s, the
problem seems to be related to documented penalties for moving single
precision data to undead xmm registers.  With this version, the speed
is cycles is almost independent of the athlon and gcc version despite
the large differences in instruction selection to use the FPU on AXPs
and SSE on A64s.
2005-11-24 02:04:26 +00:00
Ruslan Ermilov
4ca0505435 Fix prototype. 2005-11-23 20:34:37 +00:00
Ruslan Ermilov
8b79908889 Fix prototype. 2005-11-23 20:26:58 +00:00
Ruslan Ermilov
79be508c8f Fix prototypes. 2005-11-23 16:44:23 +00:00
Ruslan Ermilov
8ae7a845d5 There's no longer^Wyet <sys/capability.h>. 2005-11-23 16:24:39 +00:00
Ruslan Ermilov
49e5b98f5a Fix inet6_opt_get_val() prototype. 2005-11-23 16:07:54 +00:00
Ruslan Ermilov
5306fb2d0c Make SYNOPSIS compile. 2005-11-23 15:55:38 +00:00
Ruslan Ermilov
b0faeb2d42 Make SYNOPSIS compile after imp@'s changes. 2005-11-23 15:44:42 +00:00
Ruslan Ermilov
16a97b8591 Make SYNOPSIS compile. 2005-11-23 15:41:36 +00:00
Bruce Evans
94a5f9be99 Use only double precision for "kernel" tanf (except for returning float).
This is a minor interface change.  The function is renamed from
__kernel_tanf() to __kernel_tandf() so that misues of it will cause
link errors and not crashes.

This version is a routine translation with no special optimizations
for accuracy or efficiency.  It gives an unimportant increase in
accuracy, from ~0.9 ulps to 0.5285 ulps.  Almost all of the error is
from the minimax polynomial (~0.03 ulps and the final rounding step
(< 0.5 ulps).  It gives strange differences in efficiency in the -5
to +10% range, with -O1 fairly consistently becoming faster and -O2
slower on AXP and A64 with gcc-3.3 and gcc-3.4.
2005-11-23 14:27:56 +00:00
Ruslan Ermilov
c48648d2c1 Add missing includes. 2005-11-23 10:49:07 +00:00
Bruce Evans
01231dd04c Simplified setiing up args for __kernel_rem_pio2(). We already have x
with a 24-bit fraction, so we don't need a loop to split it into up to
3 terms with 24-bit fractions.
2005-11-23 03:03:09 +00:00
Bruce Evans
33f8f56e09 Quick fix for stack buffer overrun in rev.1.13. Oops. The prec == 1
arg to __kernel_rem_pio2() gives 53-bit (double) precision, not single
precision and/or the array dimension like I thought.  prec == 2 is
used in e_rem_pio2.c for double precision although it is documented
to be for 64-bit (extended) precision, and I just reduced it by 1
thinking that this would give the value suitable for 24-bit (float)
precision.  Reducing it 1 more to the documented value for float
precision doesn't actually work (it gives errors of ~0.75 ulps in the
reduced arg, but errors of much less than 0.5 ulps are needed; the bug
seems to be in kernel_rem_pio2.c).  Keep using a value 1 larger than
the documented value but supply an array large enough hold the extra
unused result from this.

The bug can also be fixed quickly by increasing init_jk[0] in
k_rem_pio2.c from 2 to 3.  This gives behaviour identical to using
prec == 1 except it doesn't create the extra result.  It isn't clear
how the precision bug affects higher precisions.  113-bit (quad) is
the largest precision, so there is no way to use a large precision
to fix it.
2005-11-23 02:06:06 +00:00
Ruslan Ermilov
33d6b9fbe6 Tidy up markup and fix two bugs. 2005-11-21 17:18:34 +00:00
Bruce Evans
4ce5120952 Mess up the "kernel" float trig function .c files with ifdefs so that
they can be #included in other .c files to give inline functions, and
use them to inline the functions in most callers (not in e_lgammaf_r.c).
__kernel_tanf() is too large and complicated for gcc to inline very well.

An athlons, this gives a speed increase under favourable pipeline
conditions of about 10% overall (larger for AXP, smaller for A64).
E.g., on AXP, sinf() on uniformly distributed args in [-2Pi, 2Pi]
now takes 30-56 cycles; it used to take 45-61 cycles; hardware fsin
takes 65-129.
2005-11-21 04:57:12 +00:00
Bruce Evans
58652034e8 Use double precision to simplify and optimize a long division.
On athlons, this gives a speedup of 10-20% for tanf() on uniformly
distributed args in [-2Pi, 2Pi].  (It only directly applies for 43%
of the args and gives a 16-20% speedup for these (more for AXP than
A64) and this gives an overall speedup of 10-12% which is all that it
should; however, it gives an overall speedup of 17-20% with gcc-3.3
on AXP-A64 by mysteriously effected cases where it isn't executed.)

I originally intended to use double precision for all internals of
float trig functions and will probably still do this, but benchmarking
showed that converting to double precision and back is a pessimization
in cases where a simple float precision calculation works, so it may
be optimal to switch precisions only when using extra precision is
much simpler.
2005-11-21 00:38:21 +00:00
Bruce Evans
23f6483e0a Restored a cleanup in rev.1.9 tthat was lost in rev.1.10. 2005-11-20 20:17:04 +00:00
Simon L. B. Nielsen
71dac3fb8f Do not explicitly state how many bytes an argument list can be in the
description of E2BIG, since it's now larger on some platforms.

MFC after:	3 days
2005-11-19 11:30:55 +00:00
Marcel Moolenaar
49fa07a087 o Include <sys/time.h>
o  Make this ILP32/LP64 clean: cast pointers to long
o  Code conditional upon DEBUG must also be conditional
   upon _LIBC_R_
2005-11-19 04:47:06 +00:00
Marcel Moolenaar
dc2e8ca41b o Include <string.h>
o  Make this ILP32/LP64 clean: cast pointers to long.
2005-11-19 04:45:15 +00:00
Marcel Moolenaar
40edb45e59 Fix typo: s/_LIBC_R/_LIBC_R_/ 2005-11-19 04:43:29 +00:00
Bruce Evans
8299eb7e3e Moved all the optimizations for |x| <= 9pi/2 from
__ieee754_rem_pio2f() to its 3 callers and manually inline them.

On Athlons, with favourable compiler flags and optimizations and
favourable pipeline conditions, this gives a speedup of 30-40 cycles
for cosf(), sinf() and tanf() on the range pi/4 < |x| <= 9pi/4, so
thes functions are now signifcantly faster than the hardware trig
functions in many cases.  E.g., in a benchmark with uniformly distributed
x in [-2pi, 2pi], A64 hardware fcos took 72-129 cycles and cosf() took
37-55 cycles.  Out-of-order execution is needed to get both of these
times.  The optimizations in this commit apparently work more by
removing 1 serialization point than by reducing latency.
2005-11-19 02:38:27 +00:00
Andre Oppermann
f6232df7a4 Document CLOCK_UPTIME which returns the current uptime in SI seconds.
At the moment it is just an alias for CLOCK_MONOTONIC which reports
the same number.

Sponsored by:	TCP/IP Optimization Fundraise 2005
2005-11-18 17:13:22 +00:00
Ruslan Ermilov
6b84cd5819 Fix markup, grammar and spelling. 2005-11-18 14:21:28 +00:00
Ruslan Ermilov
ca5137742a Fix up markup. 2005-11-18 11:54:14 +00:00
Ruslan Ermilov
5507a2aed5 Fix up markup etc. in recently born manpage. 2005-11-18 11:53:23 +00:00
Bruce Evans
3f1a8f462c Removed an unused declaration which was so old that it wasn't a prototype
and thus just broke building at any nonzero WARNS level.

Fixed nearby style bugs.
2005-11-18 05:03:12 +00:00
Ruslan Ermilov
110e1704d3 -mdoc sweep. 2005-11-17 13:00:00 +00:00
Bruce Evans
75ff209cbb Minor cleanups:
s_cosf.c and s_sinf.c:
Use a non-bogus magic constant for the threshold of pi/4.  It was 2 ulps
smaller than pi/4 rounded down, but its value is not critical so it should
be the result of natural rounding.

s_cosf.c and s_tanf.c:
Use a literal 0.0 instead of an unnecessary variable initialized to
[(float)]0.0.  Let the function prototype convert to 0.0F.

Improved wording in some comments.

Attempted to improve indentation of comments.
2005-11-17 03:53:22 +00:00
Bruce Evans
123e5d3dae Rearranged the the optimizations for special cases to reduce the average
number of branches.

Use a non-bogus magic constant for the threshold of pi/4.  It was 2 ulps
smaller than pi/4 rounded down, but its value is not critical so it should
be the result of natural rounding.  Use "<=" comparisons with rounded-
down thresholds for all small multiples of pi/4.

Cleaned up previous commit:
- use static const variables instead of expressions for multiples of pi/2
  to ensure that they are evaluated at compile time.  gcc currently
  evaluates them at compile time but C99 compilers are not required
  to do so.  We want compile time evaluation for optimization and don't
  care about side effects.
- use M_PI_2 instead of a magic constant for pi/2.  We need magic constants
  related to pi/2 elsewhere but not here since we just want pi/2 rounded
  to double and even prefer it to be rounded in the default rounding mode.
  We can depend on the cmpiler being C99ish enough to round M_PI_2 correctly
  just as much as we depended on it handling hex constants correctly.  This
  also fixes a harmless rounding error in the hex constant.
- keep using expressions n*<value for pi/2> in the initializers for the
  static const variables.  2*M_PI_2 and 4*M_PI_2 are obviously rounded in
  the same way as the corresponding infinite precision expressions for
  multiples of pi/2, and 3*M_PI_2 happens to be rounded like this, so we
  don't need magic constants for the multiples.
- fixed and/or updated some comments.
2005-11-17 02:20:04 +00:00
Hajimu UMEMOTO
4a58c5f5a3 The KAME's getipnodebyaddr() code honor the MULTI_PTRS_ARE_ALIASES
define also, but res_config.h was not included into libc/net/name6.c.
So getipnodebyaddr() ignored the multiple PTRs.

PR:		kern/88241
Submitted by:	Dan Lukes <dan__at__obluda.cz>
MFC after:	3 days
2005-11-15 03:40:15 +00:00
Robert Watson
be2cb7fae9 Add symlinks for kvm access methods for memstat(3).
MFC after:	3 days
2005-11-13 13:42:03 +00:00
Bruce Evans
25efbfb212 Fixed some magic numbers.
The threshold for not being tiny was too small.  Use the usual 2**-12
threshold.  This change is not just an optimization, since the general
code that we fell into has accuracy problems even for tiny x.  Avoiding
it fixes 2*1366 args with errors of more than 1 ulp, with a maximum
error of 1.167 ulps.

The magic number 22 is log(DBL_EPSILON)/2 plus slop.  This is bogus
for float precision.  Use 9 (~log(FLT_EPSILON)/2 plus less slop than
for double precision).  The code for handling the interval
[2**-28, 9_was_22] has accuracy problems even for [9, 22], so this
change happens to fix errors of more than 1 ulp in about 2*17000
cases.  It leaves such errors in about 2*1074000 cases, with a max
error of 1.242 ulps.

The threshold for switching from returning exp(x)/2 to returning
exp(x/2)^2/2 was a little smaller than necessary.  As for coshf(),
This was not quite harmless since the exp(x/2)^2/2 case is inaccurate,
and fixing it avoids accuracy problems in 2*6 cases, leaving problems
in 2*19997 cases.

Fixed naming errors in pseudo-code in comments.
2005-11-13 00:41:46 +00:00
Bruce Evans
c24b7984fc Fixed some magic numbers.
The threshold for not being tiny was confusing and too small.  Use the
usual 2**-12 threshold and simplify the algorithm slightly so that
this threshold works (now use the threshold for sinhf() instead of one
for 1+expm1()).  This is just a small optimization.

The magic number 22 is log(DBL_EPSILON)/2 plus slop.  This is bogus
for float precision.  Use 9 (~log(FLT_EPSILON)/2 plus less slop than
for double precision).

The threshold for switching from returning exp(x)/2 to returning
exp(x/2)^2/2 was a little smaller than necessary.  This was not quite
harmless since the exp(x/2)^2/2 case is inaccurate.  Fixing it happens
to avoid accuracy problems for 2*6 of the 2*151 args that were handled
by the exp(x)/2 case.  This leaves accuracy problems for about 2*19997
args near the overflow threshold (~89); the maximum error there is
2.5029 ulps.

There are also accuracy probles for args in +-[0.5*ln2, 9] -- 2*188885
args with errors of more than 1 ulp, with a maximum error of 1.384 ulps.

Fixed a syntax error and naming errors in pseudo-code in comments.
2005-11-13 00:08:23 +00:00
Bruce Evans
e96c4fd9f7 Imoproved comments for the minimax polynomial.
Removed an unused variable.

Fixed some wrong comments and some nearby misformatting.
2005-11-12 20:06:04 +00:00
Bruce Evans
6e10a447f8 Tweaked the minimax polynomial and improved its comments. 2005-11-12 19:56:35 +00:00
Bruce Evans
787d6d77d5 Improved comments for the minimax polynomial. 2005-11-12 19:54:45 +00:00
Bruce Evans
d4a74de9fc As for the float trig functions, use a minimax polynomial that is
specialized for float precision.  The new polynomial has degree 8
instead of 14, and a maximum error of 2**-34.34 (absolute) instead of
2**-30.66.  This doesn't affect the final error significantly; the
maximum error was and is about 0.8879 ulps on amd64 -01.

The fdlibm expf() is not used on i386's (the "optimized" asm version
is used), but probably should be since it was already significantly
faster than the asm version on athlons.  The asm version has the
advantage of being more accurate, so keep using it for now.
2005-11-12 18:20:09 +00:00
Daniel Eischen
f4fb3299fa Fix a stub function so that is has the correct number of
arguments.  While I'm here, correct a couple of [tab] alignments.

Submitted by:	bland
2005-11-12 16:00:29 +00:00
David Xu
ec0fd3f855 add continued status. 2005-11-12 01:37:03 +00:00
David Xu
b1e515a3f4 Insert missing copyright headers. 2005-11-12 01:19:05 +00:00
David Xu
b71ec5beb4 Only signo should be marked with .Fa. 2005-11-11 14:52:06 +00:00
Xin LI
16902e8a3f Fix plural. 2005-11-11 08:00:44 +00:00
David Xu
d971c2eec2 Fix plural. 2005-11-11 07:50:51 +00:00
David Xu
9463da7fe5 Fix copy-paste issue. 2005-11-11 07:50:09 +00:00
David Xu
bb5eebe6f2 Add POSIX timer manuals. 2005-11-11 07:48:38 +00:00
David Xu
a0e82eba5d Add descriptions about signal queue. 2005-11-11 05:40:39 +00:00
David Xu
c05e95d4ff Er, highlight function wait(). 2005-11-11 05:38:40 +00:00
David Xu
4c1a973e6e Add notes about queued SIGCHLD. 2005-11-11 05:30:48 +00:00
David Xu
e84ece6bef Add manuals for sigqueue, sigtimedwait, sigwaitinfo. 2005-11-11 03:13:25 +00:00
Ruslan Ermilov
e4a93f1ef8 Add missing shared library interdependencies. 2005-11-10 18:07:07 +00:00
Bruce Evans
c01611e437 As for __kernel_cosf() and __kernel_sinf(), use a fairly optimal minimax
polynomial for __kernel_tanf().  The old one was the double-precision
polynomial with coefficients truncated to float.  Truncation is not
a good way to convert minimax polynomials to lower precision.  Optimize
for efficiency and use the lowest-degree polynomial that gives a
relative error of less than 1 ulp.  It has degree 13 instead of 27,
and happens to be 2.5 times more accurate (in infinite precision) than
the old polynomial (the maximum error is 0.017 ulps instead of 0.041
ulps).

Unlike for cosf and sinf, the old accuracy was close to being inadequate
-- the polynomial for double precision has a max error of 0.014 ulps
and nearly this small an error is needed.  The new accuracy is also a
bit small, but exhaustive checking shows that even the old accuracy
was enough.  The increased accuracy reduces the maximum relative error
in the final result on amd64 -O1 from 0.9588 ulps to 0.9044 ulps.
2005-11-10 17:43:49 +00:00
Tim Kientzle
6487f671b6 Bump the maximum number of archive formats that can be
enabled at one time from 4 to 8.
2005-11-08 07:44:39 +00:00
Tim Kientzle
f0e9186bf9 Correctly clean up if gzip format gets mis-identified as compress format.
(This can only happen in the pathalogical case where the client is
providing single-byte blocks.)
2005-11-08 07:42:42 +00:00
Tim Kientzle
a46c33df05 Fine-tune the format detection for CPIO and ISO9660 sub-types.
This has no impact on the actual operation, it just fixes some
inaccuracies in the format code and description reported back to the caller.
2005-11-08 07:41:03 +00:00
Tim Kientzle
3bdc359ffe Portability: Use some autoconf magic to include the
correct headers for major()/minor()/makedev() on various
platforms.

Thanks to: Darin Broady
2005-11-08 03:52:42 +00:00
Ruslan Ermilov
1e4146ce4b Finish the removal of threads support in ../config.mk,v 1.15. 2005-11-07 15:22:35 +00:00
Tim Kientzle
a4fd64c861 Portability: timegm() isn't standard, so check for timegm() in
the configure script and substitute mktime() when necessary.

Thanks to:  Darin Broady
2005-11-06 23:38:01 +00:00
Bruce Evans
2b6ca0f6a5 Detach k_rem_pio2f.c from the build since it is now unused. It is a libm
internal so this shouldn't cause version problems.
2005-11-06 17:59:40 +00:00
Bruce Evans
efff995f3b Use a 53-bit approximation to pi/2 instead of a 33+53 bit one for the
special case pi/4 <= |x| < 3*pi/4.  This gives a tiny optimization (it
saves 2 subtractions, which are scheduled well so they take a whole 1
cycle extra on an AthlonXP), and simplifies the code so that the
following optimization is not so ugly.

Optimize for the range 3*pi/4 < |x| < 9*Pi/2 in the same way.  On
Athlon{XP,64} systems, this gives a 25-40% optimization (depending a
lot on CFLAGS) for the cosf() and sinf() consumers on this range.
Relative to i387 hardware fcos and fsin, it makes the software versions
faster in most cases instead of slower in most cases.  The relative
optimization is smaller for tanf() the inefficient part is elsewhere.

The 53-bit approximation to pi/2 is good enough for pi/4 <= |x| <
3*pi/4 because after losing up to 24 bits to subtraction, we still
have 29 bits of precision and only need 25 bits.  Even with only 5
extra bits, it is possible to get perfectly rounded results starting
with the reduced x, since if x is nearly a multiple of pi/2 then x is
not near a half-way case and if x is not nearly a multiple of pi/2
then we don't lose many bits.  With our intentionally imperfect rounding
we get the same results for cosf(), sinf() and tanf() as without this
optimization.
2005-11-06 17:48:02 +00:00
Bruce Evans
32948b81c4 The logb() functions are not just ieee754 "test" functions, but are
standard in C99 and POSIX.1-2001+.  They are also not deprecated, since
apart from being standard they can handle special args slightly better
than the ilogb() functions.

Move their documentation to ilogb.3.  Try to use consistent and improved
wording for both sets of functions.  All of ieee854, C99 and POSIX
have better wording and more details for special args.

Add history for the logb() functions and ilogbl().  Fix history for
ilogb().
2005-11-06 12:18:27 +00:00
David Xu
8f0371f19d Fix name compatible problem with POSIX standard. the sigval_ptr and
sigval_int really should be sival_ptr and sival_int.
Also sigev_notify_function accepts a union sigval value but not a
pointer.
2005-11-04 09:41:00 +00:00
David Xu
e89510b152 Remove a redundant _get_curthread() call. 2005-11-02 14:06:29 +00:00
Bruce Evans
cb92d4d58f Moved the optimization for tiny x from __kernel_tan[f](x) to tan[f](x)
so that it can be faster for tiny x and avoided for reduced x.

This improves things a little differently than for cosine and sine.
We still need to reclassify x in the "kernel" functions, but we get
an extra optimization for tiny x, and an overall optimization since
tiny reduced x rarely happens.  We also get optimizations for space
and style.  A large block of poorly duplicated code to fix a special
case is no longer needed.  This supersedes the fixes in k_sin.c revs
1.9 and 1.11 and k_sinf.c 1.8 and 1.10.

Fixed wrong constant for the cutoff for "tiny" in tanf().  It was
2**-28, but should be almost the same as the cutoff in sinf() (2**-12).
The incorrect cutoff protected us from the bugs fixed in k_sinf.c 1.8
and 1.10, except 4 cases of reduced args passed the cutoff and needed
special handling in theory although not in practice.  Now we essentially
use a cutoff of 0 for the case of reduced args, so we now have 0 special
args instead of 4.

This change makes no difference to the results for sinf() (since it
only changes the algorithm for the 4 special args and the results for
those happen not to change), but it changes lots of results for sin().
Exhaustive testing is impossible for sin(), but exhaustive testing
for sinf() (relative to a version with the old algorithm and a fixed
cutoff) shows that the changes in the error are either reductions or
from 0.5-epsilon ulps to 0.5+epsilon ulps.  The new method just uses
some extra terms in approximations so it tends to give more accurate
results, and there are apparently no problems from having extra
accuracy.  On amd64 with -O1, on all float args the error range in ulps
is reduced from (0.500, 0.665] to [0.335, 0.500) in 24168 cases and
increased from 0.500-epsilon to 0.500+epsilon in 24 cases.  Non-
exhaustive testing by ucbtest shows no differences.
2005-11-02 14:01:45 +00:00
David Xu
7f838bf429 In raise(), use a shortcut to directly send signal to current thread. 2005-11-02 13:52:48 +00:00
Bruce Evans
4f8d68d6ca Updated the comment about the optimization for tiny x (the previous
commit moved it).  This includes a comment that the "kernel" sine no
longer works on arg -0, so callers must now handle this case.  The kernel
sine still works on all other tiny args; without the optimization it is
just a little slower on these args.  I intended it to keep working on
all tiny args, but that seems to be impossible without losing efficiency
or accuracy.  (sin(x) ~ x * (1 + S1*x**2 + ...) would preserve -0, but
the approximation must be written as x + S1*x**3 + ... for accuracy.)
2005-11-02 13:06:49 +00:00
Bruce Evans
639a1e1106 Removed dead code for handling tan[f]() on odd multiples of pi/2. This
case never occurs since pi/2 is irrational so no multiple of it can
be represented as a float and we have precise arg reduction so we never
end up with a remainder of 0 in the "kernel" function unless the
original arg is 0.

If this case occurs, then we would now fall through to general code
that returns +-Inf (depending on the sign of the reduced arg) instead
of forcing +Inf.  The correct handling would be to return NaN since
we would have lost so much precision that the correct result can be
anything _except_ +-Inf.

Don't reindent the else clause left over from this, although it was already
bogusly indented ("if (foo) return; else ..." just marches the indentation
to the right), since it will be removed too.

Index: k_tan.c
===================================================================
RCS file: /home/ncvs/src/lib/msun/src/k_tan.c,v
retrieving revision 1.10
diff -r1.10 k_tan.c
88,90c88
< 			if (((ix | low) | (iy + 1)) == 0)
< 				return one / fabs(x);
< 			else {
---
> 			{
2005-11-02 06:45:21 +00:00
Bruce Evans
16622bffd4 Fixed some of the silliness related to rev.1.8. In 1.8, "double" in
a declaration was not translated to "float" although bit fiddling on
double variables was translated.  This resulted in garbage being put
into the low word of one of the doubles instead of non-garbage being
put into the only word of the intended float.  This had no effect on
any result because:
- with doubles, the algorithm for calculating -1/(x+y) is unnecessarily
  complicated.  Just returning -1/((double)x+y) would work, and the
  misdeclaration gave something like that except for messing up some
  low bits with the bit fiddling.
- doubles have plenty of bits to spare so messing up some of the low
  bits is unlikely to matter.
- due to other bugs, the buggy code is reached for a whole 4 args out
  of all 2**32 float args.  The bug fixed by 1.8 only affects a small
  percentage of cases and a small percentage of 4 is 0.  The 4 args
  happen to cause no problems without 1.8, so they are even less likely
  to be affected by the bug in 1.8 than average args; in fact, neither
  1.8 nor this commit makes any difference to the result for these 4
  args (and thus for all args).

Corrections to the log message in 1.8: the bug only applies to tan()
and not tanf(), not because the float type can't represent numbers
large enough to trigger the problem (e.g., the example in the fdlibm-5.3
readme which is > 1.0e269), but because:
- the float type can't represent small enough numbers.  For there to be
  a possible problem, the original arg for tanf() must lie very near an
  odd multiple of pi/2.  Doubles can get nearer in absolute units.  In
  ulps there should be little difference, but ...
- ... the cutoff for "small" numbers is bogus in k_tanf.c.  It is still
  the double value (2**-28).  Since this is 32 times smaller than
  FLT_EPSILON and large float values are not very uniformly distributed,
  only 6 args other than ones that are initially below the cutoff give
  a reduced arg that passes the cutoff (the 4 problem cases mentioned
  above and 2 non-problem cases).

Fixing the cutoff makes the bug affect tanf() and much easier to detect
than for tan().  With a cutoff of 2**-12 on amd64 with -O1, 670102
args pass the cutoff; of these, there are 337604 cases where there
might be an error of >= 1 ulp and 5826 cases where there is such an
error; the maximum error is 1.5382 ulps.

The fix in 1.8 works with the reduced cutoff in all cases despite the
bug in it.  It changes the result in 84492 cases altogether to fix the
5826 broken cases.  Fixing the fix by translating "double" to "float"
changes the result in 42 cases relative to 1.8.  In 24 cases the
(absolute) error is increased and in 18 cases it is reduced, but it
remains less than 1 ulp in all cases.
2005-11-02 05:37:31 +00:00
David Xu
bff49d66ab Fix some comments, eliminate a memory leak. 2005-11-01 13:05:47 +00:00
David Xu
6cae59b1e7 Use TIMERS_UNLOCK. 2005-11-01 07:05:32 +00:00
David Xu
53bbdf8646 Add code to handle timer_delete(). The timer wrapper code is completely
rewritten, now timers created with same sigev_notify_attributes will
run in same thread, this allows user to organize which timers can
run in same thread to save some thread resource.
2005-11-01 06:53:22 +00:00
Joseph Koshy
9dc2f0df89 Document the fact that sendfile(2) can EOPNOTSUPP if the underlying
filesystem for the file being transferred doesn't support UIO_NOCOPY.

Reported by:	Niki Denev <nike_d@cytexbg.com>
2005-10-31 04:08:28 +00:00
Joseph Koshy
012546dd27 Sort error list. 2005-10-31 04:00:20 +00:00
David Xu
7a81302ce7 Add thread exit handler in timer_loop to handle broken buggy code which
could lead to memory leak.
2005-10-30 23:59:01 +00:00
Bruce Evans
053d1689b1 Fixed spelling of remquof() in its prototype. 2005-10-30 12:34:58 +00:00
Bruce Evans
f964c6ecfb Fixed some comments added in rev.1.5.
The log message for 1.5 said that some small (one or two ulp) inaccuracies
were fixed, and a comment implied that the critical change is to switch
the rounding mode to to-nearest, with a switch of the precision to
extended at no extra cost.  Actually, the errors are very large (ucbtest
finds ones of several hundred ulps), and it is the switch of the
precision that is critical.

Another comment was wrong about NaNs being handled sloppily.
2005-10-30 12:21:02 +00:00
David Xu
4a050d016e Add timer_create wrapper. 2005-10-30 03:16:30 +00:00
Bruce Evans
19b114da0e Implement inline functions to give the complex result x+I*y from float
or double args x and y.  x+I*y cannot be used directly yet due to compiler
bugs.

Submitted by:	Steve Kargl <sgk@troutmask.apl.washington.edu>
2005-10-29 17:14:11 +00:00
Bruce Evans
8b438ea8dd Use double precision to simplify and optimize arg reduction for small
and medium size args too: instead of conditionally subtracting a float
17+24, 17+17+24 or 17+17+17+24 bit approximation to pi/2, always
subtract a double 33+53 bit one.  The float version is now closer to
the double version than to old versions of itself -- it uses the same
33+53 bit approximation as the simplest cases in the double version,
and where the float version had to switch to the slow general case at
|x| == 2^7*pi/2, it now switches at |x| == 2^19*pi/2 the same as the
double version.

This speeds up arg reduction by a factor of 2 for |x| between 3*pi/4 and
2^7*pi/4, and by a factor of 7 for |x| between 2^7*pi/4 and 2^19*pi/4.
2005-10-29 16:34:50 +00:00
David Xu
c09df63bb9 Remove unused variable.
Reviewed by: cognet
2005-10-29 13:40:31 +00:00
Bruce Evans
21b0341c80 Start trying to make the float precision trig functions actually worth
using under FreeBSD.  Before this commit, all float precision functions
except exp2f() were implemented using only float precision, apparently
because Cygnus needed this in 1993 for embedded systems with slow or
inefficient double precision.  For FreeBSD, except possibly on systems
that do floating point entirely in software (very old i386 and now
arm), this just gives a more complicated implementation, many bugs,
and usually worse performance for float precision than for double
precision.  The bugs and worse performance were particulary large in
arg reduction for trig functions.  We want to divide by an approximation
to pi/2 which has as many as 1584 bits, so we should use the widest
type that is efficient and/or easy to use, i.e., double.  Use fdlibm's
__kernel_rem_pio2() to do this as Sun apparently intended.  Cygnus's
k_rem_pio2f.c is now unused.  e_rem_pio2f.c still needs to be separate
from e_rem_pio2.c so that it can be optimized for float args.  Similarly
for long double precision.

This speeds up cosf(x) on large args by a factor of about 2.  Correct
arg reduction on large args is still inherently very slow, so hopefully
these args rarely occur in practice.  There is much more efficiency
to be gained by using double precision to speed up arg reduction on
medium and small float args.
2005-10-29 08:15:29 +00:00
David Xu
babdcc8d78 Kill unused variable declaration. 2005-10-29 03:08:43 +00:00
Bruce Evans
11dc241777 Use fairly optimal minimax polynomials for __kernel_cosf() and
__kernel_sinf().  The old ones were the double-precision polynomials
with coefficients truncated to float.  Truncation is not a good way
to convert minimax polynomials to lower precision.  Optimize for
efficiency and use the lowest-degree polynomials that give a relative
error of less than 1 ulp -- degree 8 instead of 14 for cosf and degree
9 instead of 13 for sinf.  For sinf, the degree 8 polynomial happens
to be 6 times more accurate than the old degree 14 one, but this only
gives a tiny amount of extra accuracy in results -- we just need to
use a a degree high enough to give a polynomial whose relative accuracy
in infinite precision (but with float coefficients) is a small fraction
of a float ulp (fdlibm generally uses 1/32 for the small fraction, and
the fraction for our degree 8 polynomial is about 1/600).

The maximum relative errors for cosf() and sinf() are now 0.7719 ulps
and 0.7969 ulps, respectively.
2005-10-28 13:36:58 +00:00
David Xu
55ac4c3523 Link libthr to libpthread on Alpha and Sparc. 2005-10-27 10:21:23 +00:00
David Xu
38478fab7c Disconnect libc_r from buildworld, it is still kept in the tree to
provide some baseline references, but users are encouraged to use
libpthread or libthr in real world.

Discussed on: arch@
2005-10-27 03:09:20 +00:00
Bruce Evans
3b46e988e7 Use a better algorithm for reducing the error in __kernel_cos[f]().
This supersedes the fix for the old algorithm in rev.1.8 of k_cosf.c.

I want this change mainly because it is an optimization.  It helps
make software cos[f](x) and sin[f](x) faster than the i387 hardware
versions for small x.  It is also a simplification, and reduces the
maximum relative error for cosf() and sinf() on machines like amd64
from about 0.87 ulps to about 0.80 ulps.  It was validated for cosf()
and sinf() by exhaustive testing.  Exhaustive testing is not possible
for cos() and sin(), but ucbtest reports a similar reduction for the
worst case found by non-exhaustive testing.  ucbtest's non-exhaustive
testing seems to be good enough to find problems in algorithms but not
maximum relative errors when there are spikes.  E.g., short runs of
it find only 3 ulp error where the i387 hardware cos() has an error
of about 2**40 ulps near pi/2.
2005-10-26 12:36:18 +00:00
David Xu
07b6889426 Add experiment code to implement POSIX timer's SIGEV_THREAD notification. 2005-10-26 11:08:32 +00:00
David Xu
d7f119abd5 Follow the change in kernel, joiner thread just waits at thread id
address, let kernel wake it up.
2005-10-26 07:11:43 +00:00
Ruslan Ermilov
41fa1ea96a Recognize all current standard node types. 2005-10-25 20:58:30 +00:00
Bruce Evans
a92cb60b4e More fixes for arg reduction near pi/2 on systems with broken assignment
to floats (mainly i386's).  All errors of more than 1 ulp for float
precision trig functions were supposed to have been fixed; however,
compiling with gcc -O2 uncovered 18250 more such errors for cosf(),
with a maximum error of 1.409 ulps.

Use essentially the same fix as in rev.1.8 of k_rem_pio2f.c (access a
non-volatile variable as a volatile).  Here the -O1 case apparently
worked because the variable is in a 2-element array and it takes -O2
to mess up such a variable by putting it in a register.

The maximum error for cosf() on i386 with gcc -O2 is now 0.5467 (it
is still 0.5650 with gcc -O1).  This shows that -O2 still causes some
extra precision, but the extra precision is now good.

Extra precision is harmful mainly for implementing extra precision in
software.  We want to represent x+y as w+r where both "+" operations
are in infinite precision and r is tiny compared with w.  There is a
standard algorithm for this (Knuth (1981) 4.2.2 Theorem C), and fdlibm
uses this routinely, but the algorithm requires w and r to have the
same precision as x and y.  w is just x+y (calculated in the same
finite precision as x and y), and r is a tiny correction term.  The
i386 gcc bugs tend to give extra precision in w, and then using this
extra precision in the calculation of r results in the correction
mostly staying in w and being missing from r.  There still tends to
be no problem if the result is a simple expression involving w and r
-- modulo spills, w keeps its extra precision and r remains the right
correction for this wrong w.  However, here we want to pass w and r
to extern functions.  Extra precision is not retained in function args,
so w gets fixed up, but the change to the tiny r is tinier, so r almost
remains as a wrong correction for the right w.
2005-10-25 12:13:37 +00:00
David Xu
9fc171584d Put pthread_condattr_init sorted order. 2005-10-25 00:09:58 +00:00
Bruce Evans
4339c67c48 Moved the optimization for tiny x from __kernel_{cos,sin}[f](x) to
{cos_sin}[f](x) so that x doesn't need to be reclassified in the
"kernel" functions to determine if it is tiny (it still needs to be
reclassified in the cosine case for other reasons that will go away).

This optimization is quite large for exponentially distributed x, since
x is tiny for almost half of the domain, but it is a pessimization for
uniformally distributed x since it takes a little time for all cases
but rarely applies.  Arg reduction on exponentially distributed x
rarely gives a tiny x unless the reduction is null, so it is best to
only do the optimization if the initial x is tiny, which is what this
commit arranges.  The imediate result is an average optimization of
1.4% relative to the previous version in a case that doesn't favour
the optimization (double cos(x) on all float x) and a large
pessimization for the relatively unimportant cases of lgamma[f][_r](x)
on tiny, negative, exponentially distributed x.  The optimization should
be recovered for lgamma*() as part of fixing lgamma*()'s low-quality
arg reduction.

Fixed various wrong constants for the cutoff for "tiny".  For cosine,
the cutoff is when x**2/2! == {FLT or DBL}_EPSILON/2.  We round down
to an integral power of 2 (and for cos() reduce the power by another
1) because the exact cutoff doesn't matter and would take more work
to determine.  For sine, the exact cutoff is larger due to the ration
of terms being x**2/3! instead of x**2/2!, but we use the same cutoff
as for cosine.  We now use a cutoff of 2**-27 for double precision and
2**-12 for single precision.  2**-27 was used in all cases but was
misspelled 2**27 in comments.  Wrong and sloppy cutoffs just cause
missed optimizations (provided the rounding mode is to nearest --
other modes just aren't supported).
2005-10-24 14:08:36 +00:00
David Xu
710eb02de0 Include files thr_condattr_pshared.c and thr_mattr_pshare.c. 2005-10-24 05:48:32 +00:00
David Xu
5d2466eea1 Export following functions:
_pthread_condattr_getpshared
	_pthread_condattr_setpshared
	_pthread_mutexattr_getpshared
	_pthread_mutexattr_setpshared
	pthread_condattr_getpshared
	pthread_condattr_setpshared
	pthread_mutexattr_getpshared
	pthread_mutexattr_setpshared
2005-10-24 05:37:21 +00:00
David Xu
3c86291f25 Add functions pthread_mutexattr_setpshared and pthread_mutexattr_getpshared. 2005-10-24 05:35:40 +00:00
David Xu
b21a55e2d6 Add function pthread_condattr_setpshared and pthread_condattr_getpshared. 2005-10-24 05:35:14 +00:00
David Xu
7dcb6ea4f6 Export following functions:
_pthread_mutexattr_getpshared
	_pthread_mutexattr_setpshared
	pthread_condattr_getpshared
	pthread_condattr_setpshared
	pthread_mutexattr_getpshared
	pthread_mutexattr_setpshared
2005-10-24 05:20:04 +00:00
David Xu
c3d1b896b2 Add functions pthread_mutexattr_setpshared and pthread_mutexattr_getpshared. 2005-10-24 05:16:41 +00:00
Stefan Farfeleder
22b1904845 Add el_get to the NAME section.
Obtained from:	OpenBSD (via NetBSD)
2005-10-20 08:26:03 +00:00
Peter Wemm
add112ff65 Fix a well duplicated fencepost error that stopped crashdumps being
readable on certain random memory configurations.  If the libkvm consumer
tried to read something that was in the very last pdpe, pde or pte slot,
it would bogusly fail.

This is broken in RELENG_6 too.
2005-10-20 05:41:38 +00:00
Stefan Farfeleder
c86b3a98fe Make __sem_timedwait() consistent with the sem_timedwait() prototype. 2005-10-18 17:24:03 +00:00
Dag-Erling Smørgrav
a92fef8afc Implement the full range of ISO9660 number conversion routines in iso.h.
MFC after:	2 weeks
2005-10-18 13:35:08 +00:00
Tim Kientzle
2d0d7187c0 Fix installworld breakage. <sigh>
expr and printf are not available during installworld, so
use /bin/sh arithmetic expansion instead of expr and simply
give up on vanity formatting. ;-)
2005-10-14 16:32:50 +00:00
Tim Kientzle
db38abe649 1) Use GNU libtool to build shared libraries on non-FreeBSD
systems (or on FreeBSD systems when using ports).

2) Overhaul the versioning logic.  In particular,
   SHLIB_MAJOR number is now computed as "major+minor",
   which ensures library versions are the same for
   the FreeBSD build system and the portable
   libtool/autoconf/automake build system.
2005-10-13 05:51:38 +00:00
Tim Kientzle
7fb8511e34 Make some purely internal symbols static to reduce link pollution. 2005-10-12 15:38:45 +00:00
Tim Kientzle
f230dd9adb Minor style nit: tab instead of space after #define 2005-10-12 03:28:38 +00:00
Tim Kientzle
a3c4173bb8 When reading GNU-style sparse archive entries, handle
the first sparse block correctly (we used to assume
that the first sparse block was always at offset zero).
2005-10-12 03:27:46 +00:00
Tim Kientzle
52a88d3b57 In pax interchange format, use UTF8 for writing
link names, usernames, or group names that contain
non-ASCII characters.

In particular, this corrects an inconsistency reported
by Ed Maste when archiving symlinks with odd characters:
long symlinks would get preserved, short ones would
be changed.
2005-10-12 03:26:09 +00:00
Bruce Evans
74bbe8ed42 Fixed range reduction for large multiples of pi/2 on systems with
broken assignment to floats (e.g., i386 with gcc -O, but not amd64 or
ia64; i386 with gcc -O0 worked accidentally).

Use an unnamed volatile temporary variable to trick gcc -O into clipping
extra precision on assignment.  It's surprising that only 1 place needed
to be changed.

For tanf() on i386 with gcc -O, the bug caused errors > 1 ulp with a
density of 2.3% for args larger in magnitude than 128*pi/2, with a
maximum error of 1.624 ulps.

After this fix, exhaustive testing shows that range reduction for
floats works as intended assuming that it is in within a factor of
about 2^16 of working as intended for doubles.  It provides >= 8
extra bits of precision for all ranges.  On i386:

range                       max error in double/single ulps    extra precision
-----                       -------------------------------    ---------------
0 to 3*pi/4                 0x000d3132  /  0.0016              9+ bits
3*pi/4 to 128*pi/2          0x00160445  /  0.0027              8+
128*pi/2 to +Inf            0x00000030  /  0.00000009          23+
128*pi/2 up, -O0 before fix 0x00000030  /  0.00000009          23+
128*pi/2 up, -O1 before fix 0x10000000  /  0.5                 1

The 23+ bits of extra precision for large multiples corresponds to almost
perfect reduction to a pair of floats (24 extra would be perfect).

After this fix, the maximum relative error (relative to the corresponding
fdlibm double precision function) is < 1 ulp for all basic trig functions
on all 2^32 float args on all machines tested:

          amd64     ia64      i386-O0   i386-O1
	  ------    ------    ------    ------
cosf:     0.8681    0.8681    0.7927    0.5650
sinf:     0.8733    0.8610    0.7849    0.5651
tanf:     0.9708    0.9329    0.9329    0.7035
2005-10-11 07:56:05 +00:00
Bruce Evans
59b8fc1535 Fixed range reduction near (but not very near) medium-sized multiples
of pi/2 (1 line) and expand a comment about related magic (many lines).

The bug was essentially the same as for the +-pi/2 case (a mistranslated
mask), but was smaller so it only significantly affected multiples
starting near +-13*pi/2.  At least on amd64, for cosf() on all 2^32
float args, the bug caused 128 errors of >= 1 ulp, with a maximum error
of 1.2393 ulps.
2005-10-10 20:02:02 +00:00
David Xu
88676cbc2c The pthread_attr_set_createsuspend_np was broken, fix it by
replacing THR_FLAGS_SUSPENDED with THR_FLAGS_NEED_SUSPEND.
2005-10-10 12:15:07 +00:00
Bruce Evans
11cba99f67 Fix numerous errors of >= 1 ulp for cosf(x) and sinf(x) (1 line)
and add a comment about related magic (many lines)).

__kernel_cos[f]() needs a trick to reduce the error to below 1 ulp
when |x| >= 0.3 for the range-reduced x.  Modulo other bugs, naive
code that doesn't use the trick would have an error of >= 1 ulp
in about 0.00006% of cases when |x| >= 0.3 for the unreduced x,
with a maximum relative error of about 1.03 ulps.  Mistransation
of the trick from the double precision case resulted in errors in
about 0.2% of cases, with a maximum relative error of about 1.3 ulps.

The mistranslation involved not doing implicit masking of the 32-bit
float word corresponding to to implicit masking of the lower 32-bit
double word by clearing it.

sinf() uses __kernel_cosf() for half of all cases so its errors from
this bug are similar.  tanf() is not affected.

The error bounds in the above and in my other recent commit messages
are for amd64.  Extra precision for floats on i386's accidentally masks
this bug, but only if k_cosf.c is compiled with -O.  Although the extra
precision helps here, this is accidental and depends on longstanding
gcc precision bugs (not clipping extra precision on assignment...),
and the gcc bugs are mostly avoided by compiling without -O.  I now
develop libm mainly on amd64 systems to simplify error detection and
debugging.
2005-10-09 21:07:23 +00:00
Bruce Evans
a0e34da09f Oops, the last-minute optimization in rev.1.8 wasn't a good idea. The
17+17+24 bit pi/2 must only be used when subtraction of the first 2
terms in it from the arg is exact.  This happens iff the the arg in
bits is one of the 2**17[-1] values on each side of (float)(pi/2).

Revert to the algorithm in rev.1.7 and only fix its threshold for using
the 3-term pi/2.  Use the threshold that maximizes the number of values
for which the 3-term pi/2 is used, subject to not changing the algorithm
for comparing with the threshold.  The 3-term pi/2 ends up being used
for about half of its usable range (about 64K values on each side).
2005-10-09 04:29:08 +00:00
Bruce Evans
cd604283af Fixed syntax error (a missing brace) in previous commit. 2005-10-08 22:55:36 +00:00
Bruce Evans
a7b8acac04 Fixed range reduction near (but not very near) +-pi/2. A bug caused
a maximum error of 2.905 ulps for cosf(), but the algorithm for cosf()
is good for < 1 ulps and happens to give perfect rounding (< 0.5 ulps)
near +-pi/2 except for the bug.  The extra relative errors for tanf()
were similar (slightly larger).  The bug didn't affect sinf() since
sinf'(+-pi/2) is 0.

For range reduction in ~[-3pi/4, -pi/4] and ~[pi/4, 3pi/4] we must
subtract +-pi/2 and the only complication is that this must be done
in extra precision.  We have handy 17+24-bit and 17+17+24-bit
approximations to pi/2.  If we always used the former then we would
lose up to 24 bits of accuracy due to cancelation of leading bits, but
we need to keep at least 24 bits plus a guard digit or 2, and should
keep as many guard bits as efficiency permits.  So we used the
less-precise pi/2 not very near +-pi/2 and switched to using the
more-precise pi/2 very near +-pi/2.  However, we got the threshold for
the switch wrong by allowing 19 bits to cancel, so we ended up with
only 21 or 22 bits of accuracy in some cases, which is even worse than
naively subtracting pi/2 would have done.

Exhaustive checking shows that allowing only 17 bits to cancel (min.
accuracy ~24 bits) is sufficient to reduce the maximum error for cosf()
near +-pi/2 to 0.726 ulps, but allowing only 6 bits to cancel (min.
accuracy ~35-bits) happens to give perfect rounding for cosf() at
little extra cost so we prefer that.

We actually (in effect) allow 0 bits to cancel and always use the
17+17+24-bit pi/2 (min. accuracy ~41 bits).  This is simpler and
probably always more efficient too.  Classifying args to avoid using
this pi/2 when it is not needed takes several extra integer operations
and a branch, but just using it takes only 1 FP operation.

The patch also fixes misspelling of 17 as 24 in many comments.

For the double-precision version, the magic numbers include 33+53 bits
for the less-precise pi/2 and (53-32-1 = 20) bits being allowed to
cancel, so there are ~33-20 = 13 guard bits.  This is sufficient except
probably for perfect rounding.  The more-precise pi/2 has 33+33+53
bits and we still waste time classifying args to avoid using it.

The bug is apparently from mistranslation of the magic 32 in 53-32-1.
The number of bits allowed to cancel is not critical and we use 32 for
double precision because it allows efficient classification using a
32-bit comparison.  For float precision, we must use an explicit mask,
and there are fewer bits so there is less margin for error in their
allocation.  The 32 got reduced to 4 but should have been reduced
almost in proportion to the reduction of mantissa bits.
2005-10-08 22:43:55 +00:00
Bruce Evans
d31f7e4991 Fixed profiling of main() for amd64 and i386. This started rotting
in 1993 in rev.1.5 of the i386 a.out version (csu/i386/crt0.c).
Profiling uses a magic label "eprol" to delimit the start of the part
of the text section covered by profiling.  This label must be placed
before the call to main() to get main() properly profiled.  It was
placed there in rev.1.1 of crt0.c.  Rev.1.5 imported the initial
implementation of shared libraries in FreeBSD and misplaced the label.
Fortunately, the misplaced label was misspelled and the old label
wasn't removed, so the new label had no effect.  Unfortunately, when
profiling was implemented for the ELF in 1998 in rev.1.2 of
csu/i386-elf/crt1.c, only the incorrectly placed label was copied
(after fixing its name).  The bug was then copied to all other arches.
The label seems to be still misplaced in NetBSD for most arches.  It
is in common.c for most arches so it is even further from being inside
the function that calls main().

I think "eprol" is short for "end of prologue", but it must be placed
before the end of the prologue so that it covers main().  crt0.c has
it before the calls atexit(_mcleanup) and monstartup(...), but it
cannot affect these calls so I moved it after the call to monstartup().
It now also covers the call to _init() but not the newer call to
_init_tls().  Profiling of _init() seems to be harmless, and the call
to _init_tls() seems to be misplaced.

Reviewed by:	jdp (long ago, for a slightly different i386 version)
2005-10-07 22:13:17 +00:00
Brooks Davis
72bd741cfc When removing the local domain, only do so when the result will be a
host name.  This is matches the documented behaviro.  The previous
behavior would remove the domain name even if the result retained a dot.

This fixes rsh connections from a.example.com to example.com.

Reviewed by:	ceri (at least the concept)
2005-10-05 04:42:20 +00:00
Stefan Farfeleder
9dbcd4b0c0 Remove an unused variable.
Reviewed by:	ken
2005-10-04 22:00:35 +00:00
Stefan Farfeleder
6dea540edc Merge makelist rev 1.10 and map.c rev 1.22 from NetBSD. They just patch the
bug fixed in the last commit to map.c in a different way.  Follow NetBSD to
facilitate future merges.
2005-10-04 21:59:29 +00:00
Stefan Farfeleder
51890f2fed Merge NetBSD's rev. 1.49:
Fix double if (from Alexey E. Suslikov via jmc@openbsd).
While here, re-word both H_[GS]ETUNIQUE descriptions so they make
more sense. Bump date.
2005-10-04 21:51:26 +00:00
Stefan Farfeleder
bc6e20f014 Merge NetBSD's rev. 1.41:
PR/31012: Barry Naujok: libedit el_get with EL_EDITOR op does not work
Fixed as suggested.
2005-10-04 21:45:42 +00:00
Hartmut Brandt
4a6164e606 Catch up with the import of bsnmp-1.11. Add a couple of new
configuration flags to CFLAGS and set the WARNS level to 6.
2005-10-04 15:02:07 +00:00
David Xu
d1f3c70b6e Sort function names. 2005-10-04 08:28:46 +00:00
David Xu
9e49a2370c Add function pthread_timedjoin_np, the function is similar with pthread_join
except the function will return ETIMEDOUT if target thread does not exit
before specified absolute time passes.
2005-10-04 06:15:25 +00:00
Olivier Houchard
dc9e655c0b Fix a long line in copyright notice.
Pointed out by:	Gavin Atkinson gavin.atkinson ury york ac uk
2005-10-03 14:43:27 +00:00
Olivier Houchard
3507a15713 Add an asm version of strlen() for arm (how useful). 2005-10-03 14:21:49 +00:00
Olivier Houchard
9960ac47e9 libkvm bits for arm. 2005-10-03 14:21:14 +00:00